SAFETY PRECAUTIONS. (Always read these precautions prior to use.)

Transcription

1 ECLEF-V680D2

2 SAFETY PRECAUTIONS (Always read these precautions prior to use.) Before using this product, please read this manual and the relevant manuals introduced in this manual carefully and pay full attention to safety to ensure that the product is used correctly. The precautions presented in this manual are concerned with this product only. For programmable controller system safety precautions, refer to the user s manual of the master module used. In this manual, the safety precautions are ranked as WARNING and CAUTION. WARNING CAUTION Indicates that incorrect handling may cause hazardous conditions, resulting in death or severe injury. Indicates that incorrect handling may cause hazardous conditions, resulting in medium or minor injury and/or property damage. Note that failure to observe the CAUTION level instructions may lead to a serious consequence according to the circumstances. Always follow the precautions of both levels because they are important to personal safety. Please keep this manual in an easy-to-access location for future reference, and be sure to deliver the manual to the end user. [Design Precautions] WARNING If a data link communication error occurs, the data of the master module will be retained. Using the communication status information, configure an interlock circuit in the sequence program to ensure that the system will operate safely. When the module is disconnected due to a communication failure in the network or the CPU module is in the STOP status, all outputs are held or turned off according to the parameter setting. Configure an interlock circuit in the program to ensure that the entire system will always operate safely even in such a case. If not, an accident may occur due to an incorrect output or malfunction. Outputs may remain on or off due to a failure of the module. Configure an external circuit for monitoring output signals that could cause a serious accident. Any of the remote I/O signals marked Use prohibited are used by the system. Do not use these signals. In the unlikely event such a signal is used (ON/OFF), the function of the module cannot be guaranteed. A - 1 A - 1

3 CAUTION When installing the RFID interface module and amplifier/antenna cables, do not bundle the cables with or install the cables close to the main circuit, power lines, or the like. Be sure to separate the cables and lines by about 100mm or more. Failure to do so will cause noise, resulting in malfunction. When storing the product, be sure to observe the defined storage ambient temperature and humidity. Failure to do so will lead to module malfunction and failure. Look the control panel so that only those who are trained and have acquired enough knowledge of electric facilities can open control panel. Install the emergency stop switch outside the control panel so that workers can operate it easily. [Installation Precautions] WARNING Shut off the external power supply (all phases) used in the system before mounting or removing a module. Failure to do so may result in electric shock or cause the module to fail or malfunction. CAUTION Use the module in an environment that meets the general specifications in this manual. Failure to do so may result in electric shock, fire, malfunction, or damage to or deterioration of the product. Securely fix the module with a DIN rail. Do not directly touch any conductive parts and electronic components of the module. Doing so can cause malfunction or failure of the module. Securely connect the cable connectors. Poor contact may cause malfunction. [Wiring Precautions] WARNING Shut off the external power supply (all phases) used in the system before wiring. Failure to do so may result in electric shock or cause the module to fail or malfunction. CAUTION Individually ground the FG terminal of the programmable controller with a ground resistance of 100 ohms or less. Failure to do so may result in electric shock or malfunction. Fully mount the antenna cable to the module connector. After mounting, check for separation. Insufficient contact results in the risk of erroneous input and output. Place the cables in a duct or clamp them. If not, dangling cable may swing or inadvertently be pulled, resulting in damage to the module or cables or malfunction due to poor contact. A - 2 A - 2

4 [Wiring Precautions] CAUTION When connecting a cable, first verify the connection interface type and then connect the cable properly. Connecting a cable to a wrong interface or miss wiring a cable results in the risk of module and external device malfunction. To connect a cable to the connector for the unit power supply and the FG, use a rod type crimp terminal. If the peeled cable is inserted into the cable entry, it cannot be clamped securely. Tighten the terminal screws within the specified torque range. If a terminal screw is too loose, a short circuit or malfunction may result. If a terminal screw is too tight, screw and/or module damage may occur, resulting in a short circuit or malfunction. When removing a communication cable or power cable connected to the module, do not pull the cable section. For cables with connectors, hold the connector of the section connected to the module during removal. For terminal block cables, loosen the screws of the terminal block and then remove the cable. Pulling a cable while it is connected to the module results in the risk of module and cable damage as well as malfunction due to a poor cable connection. Do not insert or remove an antenna cable with the power ON. Doing so results in the risk of failure. When an overcurrent caused by an error of an external device or a failure of the programmable controller flows for a long time, it may cause smoke and fire. To prevent this, configure an external safety circuit, such as a fuse. Prevent foreign matter such as dust or wire chips from entering the module. Such foreign matter can cause a fire, failure, or malfunction. When installing the RFID interface unit and amplifier/antenna connection cable or communication cable, don't tie the cable together with power circuit or power cable or route it near them. Provide a clearance of at least 100 mm from them. Noise may cause malfunction. Check the rated voltage and terminal layout before wiring to the module, and connect the cables correctly. Connecting a power supply with a different voltage rating or incorrect wiring may cause a fire or failure. Do not connect the power supply in reverse. Doing so results in risk of failure. Use our sequencer by installing in a control panel. Only well-trained maintenance personnel in protection against electric shock should perform unit replacement and wiring work. For the wiring method, refer to the section on "Installation and Wiring" in this manual. [Startup and Maintenance Precautions] WARNING Do not touch any terminal while power is on. Doing so will cause electric shock or malfunction. Shut off the external power supply (all phases) used in the system before cleaning the module or retightening the terminal block screws or connector screws. Failure to do so may cause the module to fail or malfunction. A - 3 A - 3

5 [Startup and Maintenance Precautions] CAUTION Do not disassemble or modify the module. Doing so may cause failure, malfunction, injury, or a fire. Be sure to shut off all phases of the external power supply used by the system before module installation to or removal from the panel. Failure to do so results in the risk of module failure and malfunction. After the first use of connectors, the number of connections/disconnections is limited to 50 times. (in accordance with IEC ) The module case is made of plastic. Do not drop the case or expose the case to strong impact. Doing so results in the risk of module damage. Before handling the module or connection cables, touch a conducting object such as a grounded metal to discharge the static electricity from the human body. Failure to do so may cause the module to fail or malfunction. When cleaning, do not use thinner, benzene, acetone, or kerosene. Doing so results in the risk of module damage. Do not insert water or wire through the gaps in the case. Doing so results in the risk of fire or electric shock. This product cannot be used as a detector for physical protection. Erroneous output or malfunction may result in an accident. When installing or removing the antenna from the amplifier, first turn OFF the module power supply. Failure to do so results in the risk of module failure and malfunction. Installation of multiple antennas may result in a decrease in communication performance due to mutual interference. Refer to the description of mutual interference between antennas in the antenna user s manual. In the unlikely event that you feel something is wrong with the product, stop using the product immediately, turn OFF the power supply, and consult with your local Mitsubishi service center or representative. Continued use as is results in the risk of module failure and malfunction. Do not use the product in locations where chemical products and oil are scattered. Doing so results in the risk of module failure and malfunction. When using the product, be sure to observe the defined ambient temperature and humidity. Failure to do so results in the risk of module failure and malfunction. Do not touch any connectors when the module is powered. Doing so results in the risk of module malfunction caused by the static electricity in your body. Startup and maintenance of a control panel must be performed by qualified maintenance personnel with knowledge of protection against electric shock. Lock the control panel so that only qualified maintenance personnel can operate it. [DISPOSAL PRECAUTIONS] CAUTION When disposing of this product, treat it as industrial waste. A - 4 A - 4

6 REVISIONS *The manual number is given on the bottom left of the back cover. Print Date *Manual Number Revision Dec CM-D A First edition This manual confers no industrial property rights or any rights of any other kind, nor does it confer any patent licenses. Mitsubishi Electric Engineering cannot be held responsible for any problems involving industrial property rights which may occur as a result of using the contents noted in this manual. Reproduction or duplication of the contents of this document in whole or in part by any means without permission is strictly prohibited MITSUBISHI ELECTRIC ENGINEERING COMPANY LIMITED A - 5 A - 5

7 INTRODUCTION Thank you for purchasing the RFID interface module manufactured by Mitsubishi Electric Engineering Company, Ltd. Prior to use, please read this manual carefully to develop full familiarity with the functions and performance of the programmable controller to ensure correct use. CONTENTS SAFETY PRECAUTIONS A- 1 REVISIONS A- 5 INTRODUCTION A- 6 CONTENTS A- 6 Manuals A- 9 Generic Terms and Abbreviations A-10 Product Portfolio A-12 Chapter 1 OVERVIEW 1-1 to RFID Interface Module Overview RFID Interface Module Features 1-2 Chapter 2 SYSTEM CONFIGURATION 2-1 to Application System Verifying the Version Overall Configuration Component List 2-4 Chapter 3 SPECIFICATIONS 3-1 to General Specifications Performance Specifications Names of Parts Indicaters LED Operating specification Remote I/O Signals Remote Registers (RWr/RWw) Remote Register Details Initial data setting RUN mode TEST mode Error History Area CC-Link Family System Profile Plus (CSP+) CSP+ applicable systems Function Blocks (FBs) CC-Link IE Field Network Diagnostic Functions Application System Remote Reset 3-41 A - 6 A - 6

8 Chapter 4 SETUP AND PROCEDURES PRIOR TO OPERATION 4-1 to Usage Precautions Installation Environment and Installation Position Installation environment Installation position Installation direction Installing the module to a DIN rail Wiring Wiring precautions Wiring unit power supply and FG Wiring of Ethernet Cable Connecting antenna and cable Setup and Procedures Prior to Operation Setting the Station Number Parameter Settings for CC-Link IE Field Network Setting network configuration 4-21 Chapter 5 THINGS YOU NEED TO KNOW BEFORE PROGRAMMING 5-1 to Operation Mode Switching the operation mode RUN mode TEST mode Using TEST mode ID tag memory Write protect function How to set write protect How to cancel write protect 5-10 Chapter 6 HOW TO COMMUNICATE WITH ID TAGS 6-1 to Programming Precautions Command/Specification List Read Write Fill data Copy Read UID Measure noise Read Initial Data Settings Control Methods According to Communication Specification Trigger Auto Repeat auto FIFO trigger FIFO repeat Sample programs Precautions for Programming Programming procedure Program example conditions 6-13 A - 7 A - 7

9 Chaptor 7 TROUBLESHOOTING 7-1 to Verifying Errors Using LED Displays RFID interface unit and CC-Link IE field network RFID I/F Checking the System when Reading and Writing Cannot Be Performed with Remote I/O Signals and Remote Registers Error Details List Error code list (CC-Link IE Field Network side) Error code list (RFID side) Unit Test 7-10 APPENDICES App-1 to App-26 APPENDIX 1 COMMUNICATION TIME (REFERENCE) App- 1 APPENDIX 2 PROCESSING TIME (REFERENCE) App- 5 APPENDIX 2.1 CC-Link IE Field Network Processing Time App- 6 APPENDIX CC-Link IE Field Network link refresh time App- 6 APPENDIX CC-Link IE Field Network link scan time App-11 APPENDIX 2.2 Transmission Delay Time App-15 APPENDIX 2.3 Calculation Example of Transmission Delay Time App-16 APPENDIX 3 External Dimensions App-18 APPENDIX 4 EMC and Low Voltage Directives App-19 APPENDIX 4.1 Measures to comply with the EMC Directive App-19 APPENDIX 4.2 Requirements to compliance with the Low Voltage Directive App-24 Product Warranty Details App-26 INDEX Ind-1 to Ind-2 INDEX Ind- 1 A - 8 A - 8

10 Manuals The manuals related to this product include the following. Direct any inquiries to your local sales store, Mitsubishi Electric Engineering service office, or any Mitsubishi Electric product dealer, as necessary. Detailed manuals Included manual Manual Title Manual Number ECLEF-V680D2 RFID Interface Module User's Manual (Hardware) 50CM-D Mitsubishi Electric CPU module manuals Manual Title QCPU User's Manual (Hardware Design, Maintenance and Inspection) MELSEC-L CPU Module User's Manual (Function Explanation, Program Fundamentals) MELSEC iq-r CPU Module User's Manual (Application) Manual Number SH ENG (13JR73) SH ENG (13JZ36) SH ENG (13JX20) Manuals related to CC-Link IE Field Network Made by Mitsubishi Electric Manual Title MELSEC-Q CC-Link IE Controller Network Reference Manual MELSEC-Q CC-Link IE Field Network Master/Local Module User's Manual MELSEC-L CC-Link IE Field Network Master/Local Module User's Manual MELSEC iq-r Ethernet/CC-Link IE User's Manual (Startup) MELSEC iq-r CC-Link IE Field Network User's Manual (Application) MELSEC-Q QD77GF Simple Motion Module User's Manual (Network) MELSEC-Q QD77GF Simple Motion Module User's Manual (Positioning Control) Manual Number SH ENG (13JV16) SH ENG (13JZ47) SH ENG (13JZ54) SH ENG (13JX09) SH ENG (13JX18) IB (1XB957) IB (1XB956) Manuals Related to CC-Link IE Field Network by CC-Link Partner Association Manual Title CC-Link IE Field Network Cable Installation Manual Manual Number CC A A - 9 A - 9

11 Generic Terms and Abbreviations This manual uses the following generic terms and abbreviations in product explanations, unless otherwise specified. Generic Term / Abbreviation GX Works2 GX Works3 Engineering tool FB CSP+ CC-Link IE Field Network CC-Link Master/local module Network module Master station Local station Remote I/O station Remote device station Intelligent device station Slave station Description A product name for a MELSEC programmable controller software package. A generic term for GX Works2 and GX Developer. The abbreviation for Function Block. The abbreviation for CC-Link Family System Profile Plus. Specification which describes data necessary for the set-up, operation and maintenance of CC-Link Family-compatible devices. A high-speed and large-capacity open field network that is based on Ethernet (1000BASE-T) Field network system that provides control data processing simultaneously at high speed. The abbreviation for the CC-Link IE Field Network master/local module A generic term for the following modules: CC-Link IE Field Network module CC-Link IE Controller Network module Ethernet interface module MELSECNET/H module MELSECNET/10 module A station that controls the entire network. This station can perform cyclic transmission and transient transmission with all stations. Only one master station can be used in a network. A station that performs cyclic transmission and transient transmission with the master station and other local stations. The station is controlled by programs in the CPU module or other equivalent modules on the station. A station that exchanges I/O signals (bit data) with the master station by cyclic transmission A station that exchanges I/O signals (bit data) and I/O data (word data) with another station by cyclic transmission. This station responds to a transient transmission request from another station. A station that exchanges I/O signals (bit data) and I/O data (word data) with another station by cyclic transmission. This station can perform transient transmission as well. This station responds to a transient transmission request from another station and also issues a transient transmission request to another station. A generic term for the following stations other than a master station. Local station Remote I/O station Remote device station Intelligent device station A - 10 A - 10

12 Generic Term / Abbreviation Reserved station Relay station Cyclic transmission Transient transmission Data link Routing Dedicated instruction Link dedicated instruction Return Disconnection Link device Remote input (RX) Remote output (RY) Remote register (RWr) Remote register (RWw) Link special relay (SB) Link special register (SW) Ethernet Seamless Description A station reserved for future use. This station is not actually connected, but counted as a connected station A station that includes two or more network modules. Data are passed through this station to stations on other networks. A function by which data are periodically exchanged among stations on the same network using link devices (RX, RY, RWw, and RWr) A function of communication with another station, which is used when requested by a dedicated instruction or an engineering tool A generic term for cyclic transmission and transient transmission A control of communication path when communicating with other networks. In the CC-Link IE Field Network, when communicating with a station with different network number, the communication path is set in advance using the routing parameter. In the RFID interface unit, the routing parameter is not required to set. Communication with other networks takes place in accordance with the routing parameter of a master station. An instruction that simplifies programming for using functions of intelligent function modules Dedicated instruction used for transient transmission with the sequencer of other stations. Enables communication with the sequencer of the same network and other networks. Allows access not only to the CC-Link IE Field Network, but to Ethernet, CC-Link IE controller network and MELSECNET/H. A process of restarting data link when a station recovers from an error A process of stopping data link if a data link error occurs The CC-Link IE Field Network unit contains the following devices inside. RX RY RWr RWw Bit data input from a slave station to the master station. (For some areas in a local station, data are input in the opposite direction.) Bit data output from the master station to a slave station. (For some areas in a local station, data are output in the opposite direction.) Word data input from a slave station to the master station. (For some areas in a local station, data are input in the opposite direction.) Word data output from the master station to a slave station. (For some areas in a local station, data are output in the opposite direction.) Bit data that indicates the operating status and data link status of a module on CC-Link IE Field Network Word data that indicates the operating status and data link status of a module on CC-Link IE Field Network Computer networking standard jointly developed by Xerox, DEC and Intel. Ethernet has been standardized as IEEE The capability of allowing customers to access to another network without being conscious of difference between networks. A - 11 A - 11

13 Generic Term / Abbreviation Line Star Ring SLMP RFID interface module V680 series Amplifier Antenna ID tag UID Description One of network topologies in which multiple devices are connected in a row. One of network topologies in which multiple devices are connected in all directions from a hub. One of network topologies in which multiple devices are connected in a ring. The abbreviation for SeamLess Message Protocol. The protocol that enables seamless communication between networks such as CC-Link IE Controller Network, CC-Link IE Field Network and CC-Link IE Motion Network. A generic term for the RFID interface units that support OMRON's V680 series for ECLEF-V680D2 type CC-Link IE Field Network. A generic term for the OMRON RFID system V680 series. An amplifier section connected to the RFID interface module for performing non-contact communication. An antenna section connected to the RFID interface module for performing non-contact communication. A generic term for the responder side of non-contact communication. A unique number for identifying the ID tag. Product Portfolio The following indicates the product portfolio of this product. Model Product Name Quantity ECLEF-V680D2 RFID interface module 1 Power connector for the unit power supply and FG *1 1 ECLEF-V680D2 Dust cover for the Ethernet connector 1 Dust cover for antenna connector. 1 Ferrite core 1 User s Manual (Hardware) (Included with module) 1 *1 The power connector comes with the unit. A - 12 A - 12

14 1. OVERVIEW Chapter 1 OVERVIEW This user manual describes the specifications, performance, functions and handling of the RFID interface unit that supports OMRON V680 series for ECLEF-V680D2 type CC-Link IE Field Network (hereinafter referred to as the "RFID interface unit") RFID Interface Module Overview This product is the RFID interface unit equipped with the OMRON RFID System V680 series antenna connection channels. By connecting this product to the master station of the CC-Link IE Field Network of the Mitsubishi general-purpose sequencer (MELSEC iq-r series, MELSEC-Q series and MELSEC-L series), this product, as the intelligent device station on the CC-Link IE Field Network, reads and writes data from and to the ID tag of the OMRON RFID System V680 series and plays a role as the interface to the sequencer CPU as the CC-Link IE Field Network intelligent device station. When utilizing the program examples introduced in this manual in an actual system, be sure to fully verify that use will not be problematic in the control of the target system. CC-Link IE Field Network master station Ethernet Cable Remote device station Remote device station CC-Link IE Field Network Intelligent device station Antenna Data reading and writing with ID tag by electromagnetic induction (non-contact) ID tag Amplifier ECLEF-V680D2 (Intelligent device station) OMRON RFID system V680 series

15 1. OVERVIEW RFID Interface Module Features (1) This module can be connected to the CC-Link IE Field Network of the OMRON RFID System V680 series. This product enables the OMRON RFID System V680 series to be connected to the CC-Link IE Field Network. This module offers distributed control*1 at the communication speed of 1 Gbps and a maximum range of of 12,100 m (ring connection of 121 units, 100 m between stations (maximum)) and allows construction of the RFID sensor system using a broad range of products of the MELSEC sequencer. *1 If the master unit is QD77GF16, ring connection is not supported. (2) All the OMRON RFID System V680 series antennas can be used. As the amplifier built-in antenna with a maximum communication range of 150 mm between the antenna and ID tag can be connected, this product is available for work in which the communication range changes. (3) 2-channel connection can be made. Two separate amplifier type antennas can be connected. Only one amplifier built-in antenna can be connected to channel 1. (4) A minimum of 1 byte to a maximum of 1016 bytes (variable) of data can be read from or written to the ID tag at a time. (5) Various test functions of the RFID system are implemented as standard. Communication test Whether communication is possible or not can be verified without operating the sequence program. Noise level measurement Noise level in the area around the antenna installation location can be measured. (6) Function Blocks (FBs) allow easy programming. Function Blocks (FBs) for GX Works3 of Mitsubishi Electric are available from the website of our FA-related products (MFFEFAN) and the Mitsubishi Electric FA site. Function Blocks (FBs) allow you to create programs easily and help improve readability of the program. (7) Error history can be checked. Error history of the RFID interface unit can be checked on GX Works3 connected to the master station using an exclusive instruction. Causes of a problem can be identified easily by checking historical error information

16 2. SYSTEM CONFIGURATION Chapter 2 SYSTEM CONFIGURATION This chapter describes system configuration of the RFID interface unit. 2.1 Application System (1) Applicable master station When using an RFID interface module, use the following products as a master station. 2 Model QJ71GF11-T2 LJ71GF11-T2 RJ71EN71 RJ71GF11-T2 QD77GF16 First five digits of serial number or later or later (no restriction) or later When a master station other than the above is used, the RFID interface module cannot be used. (2) Software package To use the RFID interface unit, the following software package is necessary. To use the MELSEC iq-r series, GX Works3 is necessary. Engineering Tool GX Works2 GX Works3 Applicable Versions Version 1.90U or later Version 1.000A or later

17 2. SYSTEM CONFIGURATION 2.2 Verifying the Version The following describes the method used to verify the version of the RFID interface module. 2 MAC address Serial Number S/W version H/W version Manufactured month Last two digits of manufactured year Indicates the year and month. (Format: YYYY-MM) Exsample When manufactured in July 2015 and both the hardware and software versions are "A". SERIAL: 1507AA

18 MODE ERR. RUN I/O ERR. BAT. USER A B C D E F SYSTEM CONFIGURATION 2.3 Overall Configuration The following indicates the overall configuration of the RFID system. The antennas, amplifier and ID tags can be used in certain combinations. Refer to the OMRON RFID system V680 series catalog. CC-Link IE Field Network master module MELSEC-Q series MELSEC iq-r series MELSEC-L series CC-Link IE Field network (Ethernet cable) 24V DC external power supply ECLEF-V680D2 CC-Link IE Field network OMRON V680 series compatible RFID interface module OMRON RFID system V680 series Amplifier Extension cable Extension cable Antenna (separate amplifier type) Antenna (amplifier built-in type) ID tags

19 2. SYSTEM CONFIGURATION 2.4 Component List Amplifier The component lists the required equipment for using the RFID interface module. Table2.4-1 Component List *1 Product Name Model Remarks Antenna (separate amplifier type) Antenna (amplifier built-in type) EEPROM type ID tag FRAM type ID tag Extension cable V680-HA63A V680-HA63B V680-HS51 V680-HS52 V680-HS63 V680-HS65 For EEPROM type ID tags (V680-D1KP ) For FRAM type ID tags (V680-D2KF /V680-D8KF /V680-D32KF ) For ID tag communication; Φ18mm type; cable length: 2m/12.5m For ID tag communication; Φ22mm type; cable length: 2m/12.5m For ID tag communication; 40x53mm type; cable length: 2m/12.5m For ID tag communication; 100x100mm type; cable length: 2m/12.5m V680-H01-V2 *2 *3 For ID tag communication; 250x200mm type; cable length: 0.5m V680-D1KP52MT V680-D1KP53M V680-D1KP54T V680-D1KP66MT V680-D1KP66T V680-D1KP66T-SP V680-D1KP58HT V680-D1KP58HTN V680-D1KP52M-BT01 V680-D1KP52M-BT11 V680-D2KF52M V680-D2KF67M V680-D2KF67 V680S-D2KF67M V680S-D2KF67 V680S-D2KF68M V680S-D2KF68 V680-D2KF52M-BT01 V680-D2KF52M-BT11 V680-D8KF67M V680-D8KF67 V680S-D8KF67M V680S-D8KF67 V680-D8KF68 V680S-D8KF68M V680S-D8KF68 V680-D32KF68 V700-A40 V700-A41 V700-A42 V700-A43 V700-A44 V700-A45 V700-A40-W Memory capacity: 1kbyte (1,000 bytes); Φ8mm type; metal embedding permitted Memory capacity: 1kbyte (1,000 bytes); Φ10mm type; metal embedding permitted Memory capacity: 1kbyte (1,000 bytes); Φ20mm type Memory capacity: 1kbyte (1,000 bytes); 34x34mm type; metal embedding permitted Memory capacity: 1kbyte (1,000 bytes); 34x34mm type Memory capacity: 1kbyte (1,000 bytes); oil-proof and chemical resistant specifications Memory capacity: 1kbyte (1,000 bytes); Φ80mm type; heat resistant specifications Memory capacity: 1kbyte (1,000 bytes); Φ80mm type; heat resistant specifications Memory capacity: 1kbyte (1,000 bytes); M10 bolt installation Memory capacity: 1kbyte (1,000 bytes); M8 bolt installation Memory capacity: 2kbytes (2,000 bytes); Φ8mm type; metal embedding permitted Memory capacity: 2kbytes (2,000 bytes); 40x40mm type; metal installation permitted Memory capacity: 2kbytes (2,000 bytes); 40x40mm type Memory capacity: 2kbytes (2,000 bytes); 40x40mm type; metal installation permitted Memory capacity: 2kbytes (2,000 bytes); 40x40mm type Memory capacity: 2kbytes (2,000 bytes); 86x54mm type; metal installation permitted Memory capacity: 2kbytes (2,000 bytes); 86x54mm type Memory capacity: 2kbytes (2,000 bytes); M10 bolt installation Memory capacity: 2kbytes (2,000 bytes); M8 bolt installation Memory capacity: 8kbytes (8,192 bytes); 40x40mm type; metal installation permitted Memory capacity: 8kbytes (8,192 bytes); 40x40mm type Memory capacity: 8kbytes (8,192 bytes); 40x40mm type; metal installation permitted Memory capacity: 8kbytes (8,192 bytes); 40x40mm type Memory capacity: 8kbytes (8,192 bytes); 86x54mm type Memory capacity: 8kbytes (8,192 bytes); 86x54mm type; metal installation permitted Memory capacity: 8kbytes (8,192 bytes); 86x54mm type Memory capacity: 32kbytes (32,744 bytes); 86x54mm type For amplifier V680-HA63A/63B connection; cable length: 2m For amplifier V680-HA63A/63B connection; cable length: 3m For amplifier V680-HA63A/63B connection; cable length: 5m For amplifier V680-HA63A/63B connection; cable length: 10m For amplifier V680-HA63A/63B connection; cable length: 20m For amplifier V680-HA63A/63B connection; cable length: 30m For amplifier built-in type antenna V680-H01-V2 connection; cable length: 2m/5m/10m/20m/30m *1. Configurations as of July For the latest V680 series configurations and amplifier, antenna, and ID tag combinations, refer to the OMRON RFID system V680 series catalog. *2. Only one amplifier built-in type antenna can be connected to channel 1. When the amplifier built-in type antenna is used, channel 2 cannot be used. *3. The separate amplifier type antenna and the amplifier built-in type antenna cannot be mixed in one unit

20 3. SPECIFICATIONS Chapter 3 SPECIFICATIONS The following describes the RFID interface module general specifications, performance specifications, remote Input/Output signals and remote register specification for the master module. 3.1 General Specifications The following describes the general specifications of the RFID interface module. Table General Specifications Item Specifications Operating ambient temperature 0 to 55 Storage ambient temperature -25 to 75 Operating ambient humidity 5 to 95%RH, non-condensing Storage ambient humidity 5 to 95%RH, non-condensing Vibration resistance JIS B 3502 and IEC compliant With intermittent vibration With continual vibration Frequency Acceleration Amplitude Sweep Count 5 to 8.4Hz - 3.5mm 10 times each in X, Y, 8.4 to 150Hz 9.8m/s 2 - Z directions 5 to 8.4Hz mm 8.4 to 150Hz 4.9m/s JIS B 3502 and IEC compliant Impact resistance (147m/s 2 ; 3 times each in X, Y, and Z directions) Operating environment Free of corrosive gasses Operating altitude *1 0 to 2000m Installation location Inside control panel *2 Overvoltage category *3 II Pollution degree *4 2 Equipment class Class I *1. Do not use or store the RFID module under pressure higher than the atmospheric pressure of altitude 0m. Doing so may cause malfunction. *2. If the environment satisfies the operating ambient temperature, operating ambient humidity and other conditions, the module can be used even outside the control panel. *3. This indicates the section of the power supply to which the equipment is assumed to be connected between the public electrical power distribution network and the machinery within the premises. Category II applies to equipment for which electrical power is supplied from fixed facilities. The surge voltage withstand level for up to the rated voltage of 300V is 2500V. *4. This index indicates the degree to which conductive material is generated in terms of the environment in which the equipment is used. Pollution degree 2 is when only non-conductive pollution occurs. A temporary conductivity caused by condensing must be expected occasionally. 3 Point To use the RFID interface module complying with the EMC Directive, refer to "EMC and Low Voltage Directives" in this manual

21 3. SPECIFICATIONS 3.2 Performance Specifications The following describes the performance specifications of the RFID interface module. 3 CC-Link IE Field Network side RFID side Item Station type Cyclic transmission Table3.2-1 Performance Specifications Inteligent device station RX points 32 points RYpoints 32 points *1 *2 RWr points 16 to 1024 points (variable) *1 *2 RWw points 16 to 1024 points (variable) Specifications The amount of data that can be written/read with 1 to 1016 bytes (variable) one ID instruction Station Number 1 to 120 Communication cable Ethernet cable that meets 1000BASE-T Standard Category 5e or higher (with double shield, STP) straight cable Connector for use RJ45 connector Connectable antenna ID tag OMRON RFID system V680 series OMRON RFID system V680 series Separate amplifier type: V680-HA63A+V680-HS V680-HA63B+V680-HS Built-in amplifier type: V680-H01-V2 1kbyte: V680-D1KP 2kbytes: V680-D2KF, V680S-D2KF 8kbytes: V680-D8KF, V680S-D8KF 32kbytes: V680-D32KF Number of connectable antennas 2 antennas *3 24V DC (ripple rate: 5% or less) External power supply Allowable voltage range: 20.4 to 28.8VDC (24V DC -15%, +20%) Current consumption:0.60a Noise resistance DC-type noise voltage 500Vp-p, noise width 1μs, based on a noise simulator with a noise frequency of 25 to 60Hz Withstand voltage All DC external terminals Ground: 500V AC, 1 minute Insulation resistance All DC external terminals Ground: 500V DC, Insulation resistance equal to or more than 10 MΩ by insulation resistance tester Protection degree IP2X Outer dimensions 70(H) 180(W) 55(D)[mm] Weight 0.3kg Applicable wire size For power supply Core 0.3 to 1.5mm 2 (22 to 16 AWG) Terminal hole size 2.8 mm 2.0 mm *4 Model name Applicable wire Rod type crimp size terminal tool Manufacturer TE 0.5-8, TE to 0.5mm 2 TE , TE mm 2 Applicable TE 1.0-8,TE to 1.0mm 2 NH-79 NICHIFU Co., Ltd solderless For power supply TE 1.5-8,TE to 1.5mm 2 terminal AI TQ 0.3mm 2 AI 0.5-8WH, AI WH 0.5mm 2 AI GY, AI GY 0.75mm 2 CRIMPFOX6 Phoenix Contact Co., Ltd. AI 1-8RD, AI 1-10RD 1.0mm 2 AI 1.5-8BK, AI BK 1.5mm 2 Applicable DIN rail TH35-7.5Fe, TH35-7.5Al (compliant with IEC 60715)

22 3. SPECIFICATIONS *1 When 1024 points are assumed, the number of units that can be connected is a maximum of 8. *2 If the master unit is QD77GF16, when 1024 points are assumed, the number of units that can be connected is a maximum of 1. A ring transmission line form cannot be used. *3 Only one amplifier built-in type antenna can be connected to channel 1. *4 To connect a cable to the connector for the unit power supply and the FG, use a rod type crimp terminal. Use one cable for each cable entry. Do not insert multiple cables. If two or more cables are inserted, it may cause a contact failure. Point Calculation of the intelligent device station processing time. The internal processing time of the RFID interface unit is 2 ms. For the time it takes for the ID tag to read or write data, refer to Appendix 1. Used to calculate the cyclic transmission delay time from the master station to intelligent device station. Calculate the intelligent device station processing time using the following formula: Intelligent device station processing time = Internal processing time (2 ms) + Time to read/write data from/to ID tag For the cyclic transmission delay time from the master station to intelligent device station, refer to the manual for the master station to be used

23 3. SPECIFICATIONS 3.3 Names of Parts The following describes the names of the parts of the RFID interface module. 2) 1) 4) 3) 6) 5) 7) Table Names of Parts No. Name Description 1) 2) 3) 4) Indicaters LED Station number setting switch Reset switch P1 P2 L ER LED LINK LED LED used to indicate the operation status of the unit. For details about the contents displayed, refer to Section A rotary switch for the following setting and test. Station Number Setting Unit Test When operating the station number setting switch, use a flathead screwdriver with 3.5mm or less width of the tip. For details about settings, refer to Section Switch for resetting hardware. Initializes by resetting the unit when communication is initialized if an error occurs. PORT1 connector for CC-Link IE Field Network (RJ45 connector) Connect an Ethernet cable. There are no restrictions on the connection order of the cables for the P1 connector and P2 connector. Indicates the error status of the CC-Link IE Field Network. (For details about the contents displayed, refer to Section ) Indicates the link status of the CC-Link IE Field Network. (For details about the contents displayed, refer to Section ) PORT2 connector for CC-Link IE Field Network (RJ45 connector) Connect an Ethernet cable. There are no restrictions on the connection order of the cables for the P1 connector and P2 connector. L ER LED LINK LED (Same as the LEDs of "P1" connector) 5) Connector for power supply and FG A connector to connect the module power supply (24VDC), and FG. 6) Antenna connector A connector for antenna connection. 7) DIN rail hook A hook for installing the DIN rail

24 3. SPECIFICATIONS Indicaters LED 1) Common 3) RFID 2) CC-Link IE Field Network Table Indicaters LED *1 No./Type Name Application 1) Common PW (Green) Indicates the power supply status. On: Power on Off: Power off RUN (Green) D LINK (Green) MODE (Green) ERR. (Red) L ERR. (Red) Indicates normal operation. On: Operating normally in RUN mode. Off: Fatal error. (Ex. WDT error, Hardware error) Indicates the data link status of the RFID module. On: Data link in operation. (cyclic transmission in progress) Flashing: Data link in operation. (cyclic transmission stopped) Off: Data link not performed. (disconnected) Indicates the mode of the RFID module. On: Online mode Flashing: Unit test mode Off: The unit test is completed. Indicates the error status of the RFID module. On: A module error has occurred. Flashing: A minor error has occurred. Off: Operating normally. Indicates the error status of data link of the RFID interface unit. On: The RFID interface unit received abnormal data. Off: The RFID interface unit received normal data

25 3. SPECIFICATIONS No./Type Name Application 2) CC-Link IE P1 Indicates the error status of P1. L ER Field On: Module received abnormal data, or module performing loopback. (Red) Network Off: Module received normal data, or module not performing loopback. P2 3) RFID RFID I/F CH1 RFID I/F CH2 LINK (Green) L ER (Red) LINK (Green) BSY. (Green) NOM. (Green) ERR. (Red) Indicates the link status of P1. On: Linkup in progress. Off: Linkdown in progress. (Same as the LEDs of "P1" connector) Indicates the operating status. On:Executing ID command or executing TEST mode Off:Standby Indicates the communication complete status. On:ID command normal end or TEST mode normal end Off:Standby or abnormal end Indicates whether or not an error exists. On:Error Flashing:Error occurred during the TEST mode communication test Off:Operating normally BSY. (Green) NOM. (Same as the LEDs of "RFID CH1" connector) (Green) ERR. (Red) *1 When the RFID interface module is failed, the LED may not turn on

26 3. SPECIFICATIONS Operating specification Table Switch Specification No. Name Description Station number setting switch (1) Setting procedure The setting value of the station number becomes valid when the module is powered on. Thus, set the station number when the module is powered off. The hundreds and tens places of the station number are set with x10. The ones place of the station number is set with x1. Ex. To set the station to 115, set the switch as shown below. Station number setting 1 (2) Setting range Set the station number from 1 to 120. Setting the value other than 1 to 120 causes a communication error with the ERR.LED lit and the D LINK LED flashes or turns off. (The RUN LED flashes.) Reset switch Test mode setting Do not change the station number setting switch while the module is powered on. Changing the station number setting switch causes a minor error and flashes the ERR. LED. Returning the station number setting switches to the previous setting eliminates the error after five seconds and turns off the ERR. LED. Do not set a station number duplicated with other station numbers. If the station number is duplicated, a communication error occurs and the D LINK LED does not turn on. Conduct the following hardware unit test by setting the station number switch to the test mode. When an undefined value is set, the ERR LED turns on and data link will not take place. (The RUN LED turns ON.) Station number Test details Unit test TEST 1 Communication test 2 Noise level measurement 2 Hardware Reset Initializes by resetting the unit when communication is initialized if an error occurs

27 3. SPECIFICATIONS 3.4 Remote I/O Signals (1) Remote I/O signal list Table Remote I/O Signal list Signal Direction: RFID Interface Module Master Module Signal Direction: Master Module RFID Interface Module Remote input (RX) Signal name Remote output (RY) Signal name RXn0 Use prohibited RYn0 RXn1 to RXn2 ID communication complete (CH1) RYn3 RXn3 ID-BUSY(CH1) Use prohibited RXn4 ID command complete (CH1) RYn4 ID command execution request (CH1) RXn5 Error detection (CH1) RYn5 TEST mode execution request RXn6 RYn6 Result reception (CH1) to Use prohibited RYn7 RXn9 to RXnA ID communication complete (CH2) RYnB RXnB ID-BUSY(CH2) Use prohibited RXnC ID command complete (CH2) RYnC ID command execution request (CH2) RXnD Error detection (CH2) RYnD Use prohibited RXnE RYnE Result reception (CH2) Use prohibited RXnF RYnF Use prohibited RX(n+1)0 RY(n+1)0 to Use prohibited to RX(n+1)6 RY(n+1)7 RX(n+1)7 Warning status flag Use prohibited RX(n+1)8 Initial data processing request flag RY(n+1)8 Initial data processing complete flag RX(n+1)9 Initial data setting complete flag RY(n+1)9 Initial data setting request flag RX(n+1)A Error status flag RY(n+1)A Error clear request flag RX(n+1)B RX(n+1)C to RX(n+1)F Remote READY Use prohibited RY(n+1)B to RY(n+1)F Use prohibited n: The initial address assigned to the RFID interface unit by the CC-Link IE Field Network station number setting. Point Use-prohibited I/O signals are used by the system and cannot be used by users. In the unlikely event that a use-prohibited device is used by a user, normal operation cannot be guaranteed

28 3. SPECIFICATIONS (2) Remote input Signal (RX) Details Table Remote input Signal (RX) Details Device No. Signal name Description RXn2 RXnA ID communication complete (CH1) (CH2) This signal is used only when the communication specification is repeat auto or FIFO repeat. (1) Turns ON when result reception (RYn6, RYnE) turns ON/OFF by turning ON of error detection (RXn5, RXnD) when ECLEF-V680D2 suspends communication due to the elapse of the auto system command wait time. (2) When RFID ERR.LED turns on after communication is suspended due to antenna disconnection and error detection (RXn5, RXnD) turns ON, result reception (RYn6, RYnE) turns ON/OFF and ID communication (RXn2, RXnA) complete turns ON. (3) Turns OFF when the ID command execution request (RYn4, RYnC) is turned OFF and received by ECLEF-V680D2. At this time, RFID ERR.LED also turns OFF. (4) The timing chart is as follows: 1) Error detection (RXn5, RXnD) turns ON when ECLEF-V680D2 suspends communication due to the elapse of the auto system command wait time or antenna disconnection. 2) ID communication complete (RXn2, RXnA) turns ON when result reception (RYn6, RYnE) turns ON/OFF. 3) The ID command execution request (RYn4, RYnC) turns OFF when ID communication complete (RXn2, RXnA) turns ON. 4) ID communication complete (RXn2, RXnA) and ID-BUSY (RXn3, RXnB) turn OFF when the ID command execution request (RYn4, RYnC) is turned OFF. ID command execution request (RYn4,RYnC) Error detection (RXn5,RXnD) Result reception (RYn6,RYnE) ID communication complete (RXn2,RXnA) ID-BUSY (RXn3,RXnB) 1) 2) 3) 4) Implemented by RFID interface module Implemented by sequence program RXn3 RXnB ID-BUSY (CH1) (CH2) (1) Turns ON when the ID command execution request (RYn4, RYnC) is turned ON and received by the RFID interface module. (2) Turns OFF when the ID command execution request (RYn4, RYnC) is turned OFF and received by the RFID interface module. (3) Always ON in TEST mode. (4) For the timing chart, refer to "ID command complete (RXn4, RYnC)"

29 3. SPECIFICATIONS Device No. Signal name Description RXn4 RXnC ID command complete (CH1) (CH2) (1) Turns ON when the ID command execution request (RYn4, RYnC) is turned ON and the status is normal upon ID command execution completion. Error detection (RXn5, RXnD) turns ON when the status is abnormal upon ID command execution completion. (2) Turns OFF when the ID command execution request (RYn4, RYnC) is turned OFF and received by the RFID interface module. (3) The timing chart is as follows: 1) The ID command execution contents are set in the remote register (RWwm+0H to 3H,RWwm+4H to 7H). 2) ID-BUSY (RXn3, RXnB) turns ON when the ID command execution request (RYn4, RYnC) turns ON, and the ID command is executed in accordance with the set contents of step 1 above. 3) ID command complete (RXn4, RXnC) turns ON when the status is normal upon ID command execution completion. 4) ID-BUSY (RXn3, RXnB) and ID command complete (RXn4, RYnC) turn OFF when the ID command execution request (RYn4, RYnC) is turned OFF. Remote register (RWwm+0H to 3H, RWwm+4H to 7H) ID command execution request (RYn4,RYnC) ID-BUSY (RXn3,RXnB) ID command complete (RXn4,RXnC) ID command execution 1) 2) 3) 4) Implemented by RFID interface module Implemented by sequence program

30 3. SPECIFICATIONS Device No. Signal name Description [RUN mode] (1) Turns ON when the ID command execution request (RYn4, RYnC) is turned ON and the ID command ends abnormally. (2) Turns OFF when the ID command execution request (RYn4, RYnC) is turned OFF and received by the RFID interface module. (3) ID command complete (RXn4, RXnC) does not turn ON when the ID command ends abnormally. Clear Error command RXn5 RXnD Error Detection (CH1) (CH2) ID command execution request (RYn4, RYnC) ID-BUSY (RXn3, RXnB) ID command complete (RXn4, RXnC) Error detection (RXn5, RXnD) Error details (RWrn+1H), (RWrn+5H) 0 Error details 0 Error occurrence Clear Error execution Implemented by RFID interface module Implemented by sequence program

31 3. SPECIFICATIONS Device No. Signal name Description [Initial data setting] (1) Turns ON after storage of error details in error details (RWrm+1H, RWrm+5H) when the initial data setting request flag (RY(n+1)9) is turned ON and an out-of-range value is specified in the communication specification area (RWwm+0H, RWwm+4H) or the processing specification area (RWwm+2H, RWwm+6H). (2) Turns OFF when the initial data setting request flag (RY(n+1)9) is turned OFF and received by the RFID interface module. (3) The initial data setting complete flag (RX(n+1)9) turns ON even if initial data setup ends abnormally. (4) Does not turn ON when a watchdog timer error occurs. (The "RUN" LED turns off.) RXn5 RXnD Error detection (CH1) (CH2) Initial data setting request flag (RY(n+1)9) Clear Error command Initial data setting complete flag (RX(n+1)9) Error detection (RXn5, RXnD) Error details (RWrn+1H), (RWrn+5H) 0 Error details 0 Error occurrence Clear Error execution Implemented by RFID interface module Implemented by sequence program

32 3. SPECIFICATIONS Device No. Signal name Description (1) If a minor error occurs, the warning code (RWrm+3H) is set and the warning status flag (RX(n+1)7) is turned ON. (2) Once the minor error factor is eliminated, the warning code (RWrm+3H) becomes 0000H, and the the warning status flag (RX(n+1)7) is turned OFF.. (3) If different minor erros occur continuously, the latest warning code (RWrm+3H) is set. Errors occurred in the past can be checked in error history data. For error history, refer to Section 3.7. RX(n+1)7 Warning status flag A minor error occurred. The minor error is removed. Warning code (RWrm+3H) 0000H (Warning code) 0000H Warning status flag (RX(n+1)7) Remote READY (RX(n+1)B) Implemented by RFID interface module Implemented by sequence program (1) Turns ON after power ON or reset for a request for initial data setup by the RFID interface module. (2) Turns OFF when the initial data processing complete flag (RY(n+1)8) is turned ON and received by the RFID interface module. RX(n+1)8 Initial data processing request flag Initial data processing request flag (RX(n+1)8) Initial data processing complete flag (RY(n+1)8) Initial data setting complete flag (RX(n+1)9) Initial data setting request flag (RY(n+1)9) Remote register (RWwm+0H to 7H) Initialization execution Remote READY (RX(n+1)B) RX(n+1)9 Initial data setting complete flag Implemented by RFID interface module Implemented by sequence program (1) Turns ON after initial data setting completion when the initial data setting request flag (RY(n+1)9) is turned ON. (2) Turns OFF when the initial data setting request flag (RY(n+1)9) is turned OFF and received by the RFID interface module. (3) For the timing chart, refer to "Initial data processing request flag (RX(n+1)8)"

33 3. SPECIFICATIONS Device No. Signal name Description (1) When a moderate error or a major error occurs, the error status flag (RX(n+1)A) is turned ON. (2) To clear the error code (RWrm+2H) and turn OFF the the error status flag (RX(n+1)A), set the error clear request flag (RY(n+1)A) to OFF ON OFF. (3) When different moderate erros occur continuously, the latest warning code (RWrm+2H) is set. Errors occurred in the past can be checked in error history data. For error history, refer to Section 3.7. [When a moderate error occurs] RX(n+1)A Error status flag Error code (RWrm+2H) Error 0000H (Error code) 0000H Error status flag (RX(n+1)A) Error clear request flag (RY(n+1)A) Remote READY (RX(n+1)B) Implemented by RFID interface module Implemented by sequence program [When a major error occurs] Error code (RWrm+2H) Error status flag (RX(n+1)A) Error 0000H (Error code) RX(n+1)A Error status flag Error clear request flag (RY(n+1)A) Remote READY (RX(n+1)B) Implemented by RFID interface module Implemented by sequence program If a major error occurs, the error will not be cleared even if the error clear request is performed

34 3. SPECIFICATIONS Device No. Signal name Description (1) Turns ON after initial data setup is complete and the RFID interface module is ready after power ON or reset. (2) Turns OFF when the initial data setting request flag (RY(n+1)9) is turned ON and received by the RFID interface module. (3) Turns ON when the initial data setting request flag (RY(n+1)9) is turned OFF and received by the RFID interface module. (4) Turns OFF in TEST mode. RX(n+1)B Remote READY Initial data setting complete flag (RX(n+1)9) Initial data setting request flag (RY(n+1)9) Remote READY (RX(n+1)B) Implemented by the RFID interface module Implemented by the sequence program n: Indicates the initial address assigned to the RFID interface unit by the CC-Link IE Field Network station number setting

35 3. SPECIFICATIONS (3) Remote output signals (RY) Details Table Remote output signals (RY) Details Device No. Signal name Description RYn4 RYnC RYn5 ID command execution request (CH1) (CH2) TEST mode execution request (1) Executes the ID command of the contents set in the remote register (RWw) when the sequence program turns ON. (2) For the timing chart, refer to "ID command complete (RXn4, RXnC)". (1) Executes TEST mode when turned ON by the sequence program. This signal is used only when the communication specification is repeat auto or FIFO repeat. RYn6 RYnE Result reception (CH1) (CH2) (1) Used as a trigger signal for communication with the next ID tag when the communication specification is repeat auto or FIFO repeat. (2) The timing chart is as follows: 1) The result information is acquired and result reception (RYn6, RYnE) is turned ON when ID command complete (RXn4, RXnC) turns ON. 2) ID command complete (RXn4, RXnC) turns OFF when result reception (RYn6, RYnE) is turned ON. 3) Result reception (RYn6, RYnE) is turned OFF when ID command complete (RXn4, RXnC) turns OFF. ID command complete (RXn4,RXnC) Result reception (RYn6,RYnE) 1) 2) 3) Implemented by RFID interface module Implemented by sequence program RY(n+1)8 RY(n+1)9 RY(n+1)A Initial data processing complete flag Initial data setting request flag Error clear request flag (1) Turns ON after initial data processing is completed when there is an initial data processing request after power ON or reset. (2) For the timing chart, refer to "Initial data processing request flag (RX(n+1)8)". (1) Turns ON when initial data is set or changed. (2) For the timing chart, refer to "Initial data processing request flag (RX(n+1)8)". (3) Not executed during ID command execution, even if the initial data setting request flag (RY(n+1)9) is turned ON. Turn the flag ON after turning the ID command execution request (RYn4, RYnC) OFF and the ID command is completed. (4) Not executed in TEST mode, even if the initial data setting request flag (RY(n+1)9) is turned ON. (1) Turns ON when a moderate error occurs and it is cleared. (2) For the timing chart, refer to the section on the error status flag (RX(n+1)A). n: Indicates the initial address assigned to the RFID interface unit by the CC-Link IE Field Network station number setting

36 3. SPECIFICATIONS 3.5 Remote registers (RWr/RWw) (1) Remote register assignments of remote device stations Operation Mode Initial data setting RUN mode Reception Direction Master module RFID Interface module RFID Interface module Master module Master module RFID Interface module RFID Interface module Master module CH1 Address Table Remote Register List CH2 Description Initial value Reference RWwm+0H RWwm+4H Communication specification area 0 Section 3.6.1(1) RWwm+1H RWwm+5H Communication setting area 0 Section 3.6.1(2) RWwm+2H RWwm+6H Processing specification area 0 Section 3.6.1(3) RWwm+3H RWwm+7H Auto system command wait time setting area 0 Section 3.6.1(4) RWwm+8H and thereafter Use prohibited 0 - RWrm+0H RWrm+4H Module status storage area 0 Section 3.6.1(5) RWrm+1H RWrm+5H Error details storage area 0 Section 3.6.1(6) RWrm+2H Error code 0 Section 3.6.1(7) RWrm+3H Warning code 0 Section 3.6.1(8) RWrm+6H and thereafter Use prohibited 0 - RWwm+0H RWwm+4H Command code specification area 0 Section 3.6.2(1) RWwm+1H RWwm+5H Start address specification area 0 Section 3.6.2(2) RWwm+2H RWwm+6H Number of processing points specification area 0 Section 3.6.2(3) RWwm+3H RWwm+7H Command option specification area 0 Section 3.6.2(4) RWwm+8H and thereafter (*1) (*1) Write data specification area 1 and thereafter 0 Section 3.6.2(5) RWrm+0H RWrm+4H Module status storage area 0 Section 3.6.2(6) RWrm+1H RWrm+5H Error details storage area 0 Section 3.6.2(7) RWrm+2H Error code 0 Section 3.6.2(8) RWrm+3H Warning code 0 Section 3.6.2(9) RWrm+6H to RWrm+7H Use prohibited 0 - RWrm+8H and thereafter (*1) (*1) Read data storage area 1 and thereafter 0 Section 3.6.2(10)

37 3. SPECIFICATIONS Operation Mode TEST mode Reception Direction Master module RFID Interface module RFID Interface module Master module RWwm+1H to RWwm+3H Address Description Initial value Reference RWwm+0H Test operation mode specification area 0 Section 3.6.3(1) RWwm+4H and thereafter Use prohibited 0 - RWrm+0H RWrm+4H Module status storage area 0 Section 3.6.3(2) RWrm+1H RWrm+5H Use prohibited 0 - RWrm+2H Error code 0 Section 3.6.3(3) RWrm+3H Warning code 0 Section 3.6.3(4) RWrm+6H to RWrm+7H Use prohibited 0 - RWrm+8H RWrm+CH Processing result storage area 0 Section 3.6.3(5) RWrm+9H to RWrm+BH RWrm+DH and thereafter Use prohibited 0 - m: Address assigned to master station by station number setting. *1 The first half is the CH1 area and the second half is CH2. Point Use-prohibited devices are used by the system and cannot be used by users. In the unlikely event that a use-prohibited device is used by a user, normal operation cannot be guaranteed

38 3. SPECIFICATIONS (2) Comparison of remote register assignment with ECL2-V680D1 Table shows comparison of remote register assignment with ECL2-V680D1. When ECLEF-V680D2 is used by utilizing the ECL2-V680D1 program, change the remote register as shown below. Operation mode Initial data setting RUN mode Reception Direction Master module RFID Interface module RFID Interface module Master module Master module RFID Interface module RFID Interface module Master module Address Table Remote register list ECLEF-V680D2 RWwm+0H Communication specification area (CH1) RWwm+1H Communication setting area (CH1) RWwm+2H Processing specification area (CH1) Auto system command RWwm+3H wait time setting area (CH1) RWwm+4H Communication specification area (CH2) RWwm+5H Communication setting area (CH2) RWwm+6H Processing specification area (CH2) Auto system command RWwm+7H wait time setting area (CH2) RWwm+8H and Use prohibited thereafter RWrm+0H Module status storage area (CH1) RWrm+1H Error details storage area (CH1) RWrm+2H Error code RWrm+3H Warning code RWrm+4H Module status storage area (CH2) RWrm+5H Error details storage area (CH2) RWrm+6H and thereafter Use prohibited RWwm+0H Command code specification area (CH1) RWwm+1H Start address specification area (CH1) Number of processing points RWwm+2H Specification area (CH1) RWwm+3H Command option specification area (CH1) RWwm+4H Command code specification area (CH2) RWwm+5H Start address specification area (CH2) Number of processing points RWwm+6H Specification area (CH2) RWwm+7H Command option specification area (CH2) RWwm+8H and thereafter Write data specification area 1 and thereafter (CH1) RWrm+0H Module status storage area (CH1) RWrm+1H Error details storage area (CH1) RWrm+2H Error code RWrm+3H Warning code RWrm+4H Module status storage area (CH2) RWrm+5H Error details storage area (CH2) RWrm+6H Use prohibited RWrm+7H Use prohibited RWrm+8H and thereafter Read data storage area 1 and thereafter (CH1) Description ECL2-V680D1 Communication specification area Communication setting area Processing specification area Auto system command wait time setting area Use prohibited Module status storage area Error details storage area Use prohibited Command code specification area Start address specification area Number of processing points Specification area Write data specification area 1 and thereafter Module status storage area Error details storage area Use prohibited Read data storage area 1 and thereafter

39 3. SPECIFICATIONS Operation mode Reception direction Address ECLEF-V680D2 Description ECL2-V680D1 Master module RFID Interface module RWwm+0H RWrm+1H and thereafter Test operation mode specification area (CH1,CH2) Use prohibited Test operation mode specification area Use prohibited RWrm+0H Module status storage area (CH1) Module status storage area RWrm+1H Use prohibited RWrm+2H Error code Use prohibited RWrm+3H Warning code Processing result storage area TEST mode RFID Interface module Master module RWrm+4H Module status storage area (CH2) RWrm+5H to RWrm+7H Use prohibited RWrm+8H Processing result storage area (CH1) RWrm+9H to RWrm+BH Use prohibited Use prohibited RWrm+CH Processing result storage area (CH2) RWrm+DH and thereafter Use prohibited

40 3. SPECIFICATIONS 3.6 Remote Register Details Initial data setting The m in the remote register address indicates the address assigned to the master station in the station number setting. (1) Communication specification area (RWwm+0H,RWwm+4H) The communication specification method is selected according to the ID tag status (stationary or moving). For details of the control method for each communication specification, refer to Section 6.3, Control Methods According to Communication Specification. The contents set become enabled when the initial data setting request flag (RY(n+1)9) turns ON. Table Communication specification area Specification value * 3 Name Description 0000H Trigger * H 0002H Auto Repeat auto 0003H FIFO Trigger * H FIFO repeat * 2 (1) Communicates with a static ID tag located within the antenna communication area when the ID command execution request (RYn4, RYnC) turns ON. (2) Be sure that there is only one ID tag in the antenna communication area. (1) Waits for detection of an ID tag moving within the antenna communication area after the ID command execution request (RYn4, RYnC) turns ON, and then executes communication. (2) Be sure that there is only one ID tag in the antenna communication area. (1) Waits for detection of an ID tag moving within the antenna communication area after the ID command execution request (RYn4, RYnC) turns ON, and then executes communication. (2) Does not execute communication with ID tags that stay in the communication area. (3) Waits again for the approach of a moving ID tag after response transmission is completed, continually executes communication with subsequent ID tags, and stops communication when the ID command execution request (RYn4, RYnC) turns OFF. (4) Be sure that there is only one ID tag in the antenna communication area. (1) Communicates with an operable ID tag within the antenna communication area after the ID command execution request (RYn4, RYnC) turns ON. (2) Sets the ID tag to an operation disabled state after communication completion. (3) Does not communicate with an ID tag with which communication was once already performed when that same ID tag is within the communication area. (4) Be sure that only one operable ID tag is within the antenna communication area during ID tag communication. (1) Waits for detection of an operable ID tag within the antenna communication area after the ID command execution request (RYn4, RYnC) turns ON, and then performs communication. (2) Sets the ID tag to an operation disabled state after communication completion. (3) Does not communicate with the same ID tag again when an ID tag with which communication was once already performed is within the communication area. (4) Be sure that only one operable ID tag is within the antenna communication area during ID tag communication. (5) Waits again for the approach of a moving ID tag after response transmission completion, continuously executes communication with subsequent ID tags, and stops communication when the ID command execution request (RYn4, RYnC) turns OFF. *1 The value is set to trigger by default. *2 Cannot be used for communication with V680-D1KP. *3 If an out-of-range value is specified, error detection (RXn5, RXnD) turns ON. The set contents are not updated

41 3. SPECIFICATIONS (2) Communication setting area (RWwm+1H,RWwm+5H) The communication setting area selects the communication settings shown in Table The contents set become enabled when the initial data setting request flag (RY(n+1)9) turns ON. Table Communication setting area Bit Name Description * 1 0 Write verify setting 1 ID tag communication speed setting *2 2 Write protect setting Specifies the read/write data code. Read/Write data code 3 0: Without ASCII/HEX conversion setting *3 1: With ASCII/HEX conversion 4 to 15 Not used 0 : Fixed *4 Sets whether or not the write verify function, which automatically verifies that data is normally written by the RFID interface module when a write command is executed, is to be executed. 0: Execute 1: Do not execute Shortens the communication time when the communication time with the ID tag is long with the standard communication speed setting. 0: Standard mode 1: High-speed mode Enables/Disables the write protect function (ID tag write prohibit function). 0: Enable 1: Disable *1 The default values are set as follows: Write verify setting :Execute ID tag communication speed setting :Standard mode Write protect setting :Enable Read/Write data code setting :Without ASCII/HEX conversion *2 If FIFO trigger or FIFO repeat is specified in the communication specification area (RWwm+0H, RWwm+4H), the communication speed is set to standard mode even if high-speed mode is set as the ID tag communication speed setting

42 3. SPECIFICATIONS *3 The following shows examples of ASCII/HEX conversion. 1) Without ASCII/HEX conversion, Data storage order: Upper Lower, Number of processing points: 2 Write data specification area 1 and thereafter (RWwm+3H and thereafter) ID tag Read data storage area 1 and thereafter (RWrm+3H and thereafter) Write Address Read BA21H 0010H BAH BA21H 0011H 21H 2) With ASCII/HEX conversion, Data storage order: Upper Lower, Number of processing points: 4 If ASCII/HEX conversion is set to "With ASCII/HEX conversion," set the number of bytes of ASCII to be read from or written to the ID tag in the number of processing points specification area (RWwm+2H, RWwm+6H). If ASCII/HEX conversion is set to "With ASCII/HEX conversion", reading is performed from an ID tag, and a code not expressed in hexadecimal format exists in the conversion source data (a value other than "0" to "9" and "A" to "F"), bit 14 of the error details storage area (RWrm+1H, RWrm+5H) turns ON and error detection (RXn5, RXnD) turns ON. If the number of processing points specified in the number of processing points specification area (RWwm+2H, RWwm+6H) is odd, bit 0 of the error details storage area (RWrm+1H, RWrm+5H) turns ON and error detection (RXn5, RXnD) turns ON. ASCII/HEX conversion is enabled only with a Read/Write command. ASCII/HEX conversion is not performed with Fill Data, Read UID, Copy, or Measure Noise. *4 If 1 is set, error detection (RXn5, RXnD) turns ON. The set contents are not updated

43 3. SPECIFICATIONS (3) Processing specification area (RWwm+2H, RWwm+6H) The processing specification area selects the data storage order when reading or writing is performed with an ID tag. Name Data storage order Specification Description *5 Table Processing Specification Area Processing Description *1*2 0000H Upper Lower *3 Read, Write, Fill data 0001H Lower Upper *4 Applicable Commands *1 The set contents are enabled when the initial data setting request flag (RY(n+1)9) turns ON. *2 The default setting is Upper Lower. *3 The following shows an Upper Lower example. Write data specification area 1 and thereafter (RWwm+3H and thereafter) (Upper Lower) RWwm+3H RWwm+4H 4241H 4443H ID tag Read data storage area 1 and thereafter (RWrm+3H and thereafter) Write Read Address Upper Lower Upper Lower 0010H 42H 42H 41H 42H 41H 0011H 41H Upper Lower 4241H Upper 44H Lower 43H 0012H 0013H 44H 43H 44H 43H 4443H RWrm+3H RWrm+4H *4 The following shows a Lower Upper example. Write data specification area 1 and thereafter (RWwm+3H and thereafter) (Upper Lower) ID tag Read data storage area 1 and thereafter (RWrm+3H and thereafter) RWwm+3H RWwm+4H 4241H 4443H Write Upper 42H Upper 44H Lower 41H Lower 43H Address 0010H 0011H 0012H 0013H 41H 42H 43H 44H Read Upper 42H Upper 44H Lower 41H Lower 43H 4241H 4443H RWrm+3H RWrm+4H *5 If an out-of-range value is specified, error detection (RXn5, RXnD) turns ON. The set contents are not updated

44 3. SPECIFICATIONS (4) Auto system command wait time setting area (RWwm+3H, RWwm+7H) The auto system command wait time setting area sets the time that an auto system command (auto, repeat auto, FIFO repeat) is to wait for an ID tag response after the ID command execution request (RYn4, RYnC) is turned ON. Operation is performed based on the settings at the time that the initial data setting request flag (RY(n+1)9) turns on. Table Auto system command wait time setting area Set value *1 Description * Continually executes the ID command until there is a response from an ID tag to 9999 Stops the ID command due to a tag not present error when an ID tag is not detected within the set value [BCD] x 0.1 seconds, causing error detection to turn ON. *1 If a value other than BCD is set, error detection (RXn5, RXnD) turns ON. The set contents are not updated. *2 The default setting is 0000H (the ID command is continually executed until there is a response from an ID tag). (5) Module status storage area (RWrm+0H, RWrm+4H) Refer to Section (6) "Module status storage area (RWrm+0H, RWrm+4H)". (6) Error details storage area (RWrm+1H, RWrm+5H) Bit 0 (ID command error) of the error details storage area turns ON when the initial data setting request flag (RY(n+1)9) is turned ON and an out-of-range value is specified in the communication specification area (RWwm+0H, RWwm+4H) or the processing specification area (RWwm+2H, RWwm+6H). When the initial data setting request flag (RY (n+1)9) is turned OFF, all bits of the error details storage area (RWrm+1H, RWrm+5H) are cleared. (7) Error code (RWrm+2H) When a moderate or major error occurs (except for a watchdog timer error) occurs, the error code is stored. When the error clear request flag (RY(n+1)A) is turned ON after removing the error factor that occurred, the error code will be cleared. Errors occurred in the past can be checked in error history. For details on error history, refer to Section 3.7. (8) Warning code (RWrm+3H) If a minor error occurs, the warning code is stored. When the minor error factor that occurred is removed, the warning code will be cleared. Warnings occurred in the past can be checked in error history. For details on error history, refer to Section

45 3. SPECIFICATIONS RUN mode (1) Command code specification area (RWwm+0H, RWwm+4H) This area is used to specify the processing contents for ID tags using command codes. Operation is performed based on the settings at the time that the ID command execution request (RYn4, RYnC) turns on. Table Command Code Specification Area Command Code Command Name 0000H Read 0001H Write 0006H Fill Data 0009H Copy 000CH UID Read 0010H Measure Noise 0020H Read Initial Data Settings (2) Start address specification area (RWwm+1H, RWwm+5H) This area is used to specify the ID tag start address when Read, Write, and Fill Data are executed against ID tags. Operation is performed based on the settings at the time that the ID command execution request (RYn4, RYnC) turns on. (3) Number of processing points specification area (RWwm+2H, RWwm+6H) This area is used to specify the number of processed bytes when Read, Write, and Fill Data are executed against ID tags. Operation is performed based on the settings at the time that the ID command execution request (RYn4, RYnC) turns on. When ASCII/HEX conversion is set to "With ASCII/HEX conversion," set the number of bytes of ASCII to be read from or written to the ID tag. When an odd number is specified for Read or Write, ASCII/HEX conversion is set to "With ASCII/HEX conversion," bit 0 of the error details storage area (RWrm+1H) turns ON and error detection (RXn5, RXnD) turns ON. (4) Command option specification area (RWwm+3H,RWwm+7H) Specify the address of a copy destination when the ID tag is copied. Operation is performed based on the settings at the time that the ID command execution request (RYn4, RYnC) turns on

46 3. SPECIFICATIONS (5) Write data specification area 1 and thereafter (RWwm+8H and thereafter, RWwm+nH and thereafter) These areas store write data when Write or Data Fill is executed with ID tags. (a) Write data storage range Write data is stored from the write data specification area 1 (RWwm+8H, RWwm+nH) to the number of bytes specified in the processing point specification area (RWwm+2H, RWwm+6H). The first half is the write data specification area (CH1) while the second half is the write data specification area (CH2). n: 8H+ (Write data specification area (CH1)) The write data specification area is limited to the last remote register (RWw) assigned to the RFID interface unit. (Example) When the number of points of RWw is 72. RWwm+0H RWwm+8H Write data specification area 1 (CH1) RWwm+27H RWwm+28H Write data specification area 32 (CH1) Write data specification area 1 (CH2) 32 points 72 points 32 points RWwm+47H Write data specification area 32 (CH2) (b) Fill data data storage range Fill data data is stored in write data specification area 1 (RWwm+8H, RWwm+nH). (6) Module status storage area (RWrm+0H, RWrm+4H) This area stores the operating status of the RFID interface module. The area is enabled in both RUN mode and TEST mode. Table Module status storage area Bit Name Description 0 Antenna error 0: Normal or antenna not connected 1: An inapplicable antenna is connected 1 Not used 0: Fixed 2 TEST mode 0: RUN mode 1: TEST mode 3 to 15 Not used 0: Fixed

47 3. SPECIFICATIONS (7) Error details storage area (RWrm+1H, RWrm+5H) When an error occurs when the ID command execution request (RYn4, RYnC) is turned ON, the bit corresponding to the error contents turns ON. When the ID command execution request (RYn4, RYnC) is turned OFF, all the bits in the error details storage area (RWrm+1H, RWrm+5H) are turned OFF. Table Error details storage area Bit Name Description 0 ID Command error Turns ON when there is an error in the specified initial data setting or the ID command. Turns ON when the number of processing bytes is odd for read/write during ASCII/HEX conversion. 1 Not used - 2 Not used - 3 Not used - 4 Status flag Turns ON under in the following cases: When an error occurs as a result of data writing after reading during the Copy command.*1 5 Not used - 6 Not used - 7 ID system error 3 ID system error 8 ID system error 2 ID system error 9 ID system error 1 ID system error 10 Tag not present error Turns ON when there is no communicable ID tag in the antenna communication area. 11 Protect error Turns ON when data is written in an area set as write protected. 12 Tag communication error 13 Address error 14 Verify error ASCII/HEX conversion error Turns ON when communication with an ID tag does not end normally. Turns ON when an attempt is made to read or write data beyond the ID tag address specifiable range. Turns ON when data writing cannot be performed normally with an ID tag. Turns ON when reading is performed with ASCII/HEX conversion set to "With ASCII/HEX conversion", and data that cannot be converted is included in the tag. 15 Antenna error Turns ON when failure occurs possibly because the antenna or amplifier is not connected. *1 When a Copy command error occurs causing an error on the copy destination side, the bit on the copy source side also turns ON. (8) Error code (RWrm+2H) Refer to Section 3.6.1(7) Error code (RWrm+2H). (9) Warning code (RWrm+3H) Refer to Section 3.6.1(8) Warning code (RWrm+3H)

48 3. SPECIFICATIONS (10) Read data storage area 1 and thereafter (RWrm+8H and thereafter, RWrm+nH and thereafter) These areas store read data when Read, Read UID, Measure Noise, or Read Initial Data Settings is executed against ID tags. (a) Read data storage range Read data is stored from the read data storage area 1 (RWwm+8H, RWwm+nH) to the number of bytes specified in the processing point storage area (RWwm+2H, RWwm+6H). The first half is the read data storage area (CH1) while the second half is the read data storage area (CH2). n: 8H+ (Read data storage area (CH1)) The read data storage area is limited to the last remote register (RWr) assigned to the RFID interface unit. (Example) When the number of points of RWr is 72. RWrm+0H RWrm+8H Read data storage area 1(CH1) RWrm+27H RWrm+28H Read data storage area 32(CH1) Read data storage area 1(CH2) 32 points 72 points 32 points RWrm+47H Read data storage area 32(CH2) (b) Read UID storage range The read unit identification number (8 bytes) when Read UID is executed is stored in the read data storage areas 1 to 4 (RWrm+8H to RWrm+BH, RWrm+nH to RWrm+n+3H). (c) Noise measurement result storage range The measurement result (average value, maximum value, and minimum value of measured data) when Measure Noise is executed is stored in the read data storage areas 1 to 3 (RWrm+8H to RWrm+AH, RWrm+nH to RWrm+n+2H). CH1 Address Table Noise Measurement Result CH2 Area Description RWrm+8H RWrm+nH Read data storage area 1 Average value (0 to 99) RWrm+9H RWrm+n+1H Read data storage area 2 Maximum value (0 to 99) RWrm+AH RWrm+n+2H Read data storage area 3 Minimum value (0 to 99)

49 3. SPECIFICATIONS (d) Read initial data setting value storage range The result (communication specification, communication setting, processing specification, and auto system command wait time setting) when Read Initial Data Settings is executed is stored in the read data storage areas 1 to 4 (RWrm+8H to RWrm+BH, RWrm+nH to RWrm+n+3H). Table Initial Data Set Value Read Results Address Area Description CH1 CH2 RWrm+8H RWrm+9H RWrm+AH RWrm+BH RWrm+nH RWrm+n+1H RWrm+n+2H RWrm+n+3H Read data storage area 1 Read data storage area 2 Read data storage area 3 Read data storage area 4 Communication specification (Refer to Section (1).) Communication setting (Refer to Section (2).) Processing specification (Refer to Section (3).) Auto system command wait time setting (Refer to Section (4).)

50 3. SPECIFICATIONS TEST mode (1) TEST operation mode specification area (RWwm+0H) This area sets the test contents to be executed. Tests on CH1 and CH2 are conducted alternately. Table Operation Mode Specification Area Set value Description 0000H, Value other than below Communication test 00C0H Noise level (2) Module status storage area (RWrm+0H, RWrm+4H) Refer to Section (6) "Module status storage area (RWrm+0H, RWrm+4H). (3) Error code (RWrm+2H) Refer to Section 3.6.1(7) Error code (RWrm+2H). (4) Warning code (RWrm+3H) Refer to Section 3.6.1(8) Warning code (RWrm+3H). (5) Processing result storage area (RWrm+8H, RWrm+CH) This area stores the test execution result. The result is displayed by the amplifier side LED as well. Test Description Communication test Noise level Table Processing Result Storage Area Success Failure Data Format Processing time E0 + Error code Processing Time Measurement result Error Code 0001 to 9999[BCD] (Unit: 10ms) 70: Tag communication error 72: Tag not present error 79: ID system error 1 7A: Address error 7C: Antenna error Success C0 + Measurement result 00 to 99H[BCD] (maximum value) Failure E0 + Error code 7C: Antenna error

51 3. SPECIFICATIONS 3.7 Error History Area If an error of the RFID interface unit itself or CC-Link IE Field Network error occurs, error history is recorded in the RFID interface unit. Error history can be read as necessary by RIRD instruction of the sequence program. Offset 0000H to 000FH An initial value is set for the error history area when the power is turned on or hardware is reset. Table Error History Area List Description Error history data H to 001FH Error history data H to 002FH Error history data H to 003FH Error history data H to 004FH Error history data H to 005FH Error history data H to 006FH Error history data 7 Error history area 0070H to 007FH Error history data 8 (240 words) 0080H to 008FH Error history data H to 009FH Error history data 10 00A0H to 00AFH Error history data 11 00B0H to 00BFH Error history data 12 00C0H to 00CFH Error history data 13 00D0H to 00DFH Error history data 14 00E0H to 00EFH Error history data 15 Table Access Code/Attribute Code Access code 01H Attribute code 05H

52 3. SPECIFICATIONS Table Error History Data Offset Name Description H Error code Indicates the type of error that occurred H The order in which errors occurred. A numerical value from 0 to that indicates the order in which errors occurred H Time of occurrence of an error (Christian Era) Date and time of occurrence of an error (Christian Era) H Time of occurrence of an error (month/day) H Time of occurrence of an error (hour/minute) H Time of occurrence of an error (second/00) H Error detail H Error detail H Error detail H Error detail AH Error detail BH Error detail CH Error detail DH Error detail EH Reserved + 000FH Reserved Date and time of occurrence of an error (upper 8 bits: month, lower 8 bits: day) (BCD) Date and time of occurrence of an error (upper 8 bits: hour, lower 8 bits: minute) (BCD) Date and time of occurrence of an error (upper 8 bits: second, lower 8 bits: 00) (BCD) Detailed information about an error occurred is stored. Definition varies depending on the error code

53 3. SPECIFICATIONS 3.8 CC-Link Family System Profile Plus (CSP+) (Supported by GX Works2 Japanese version only) The CC-Link family system profile Plus (CSP+) is a set of specifications for describing the information required for CC-Link family module startup, operation, and maintenance. CSP+ can be downloaded from the CC-Link Partner Association free of charge. CC-Link Partner Association Download CSP+ Register profile (import) Devices can be simply arranged by dragging and dropping

54 MODE RUN BAT. ERR. I/O ERR. USER 3. SPECIFICATIONS CSP+ applicable systems The following shows a CSP+ applicable system configuration. (1) System configuration (a) When the CC-Link IE Field Network master module is LJ71GF11-T A B C D E F Intelligent device station, Remote device station CC-Link IE Field Network OMRON V680 series RFID system RFID interface module Amplifier Antenna ID tag Table CSP+ Applicable CC-Link IE Field Network Master Module Model First five digits of serial number LJ71GF11-T or later

55 3. SPECIFICATIONS (b) When the CC-Link IE Field Network master module is QJ71GF11-T2 Intelligent device station, Remote device station CC-Link IE Field Network OMRON V680 series RFID system RFID interface module Amplifier Antenna ID tag Table CSP+ Applicable CC-Link IE Field Network Master Module Model First five digits of serial number QJ71GF11-T or later

56 3. SPECIFICATIONS (c) When the CC-Link IE Field Network master module is RJ71GF11-T2 or RJ71EN71 Intelligent device station, Remote device station CC-Link IE Field Network OMRON V680 series RFID system RFID interface module Amplifier Antenna ID tag Table CSP+ Applicable CC-Link IE Field Network Master Module Model RJ71GF11-T2 RJ71EN71 First five digits of serial number (no restriction)

57 3. SPECIFICATIONS (d) When the CC-Link IE Field Network master module is QD77GF16 Intelligent device station, Remote device station CC-Link IE Field Network OMRON V680 series RFID system RFID interface module Amplifier Antenna ID tag Table CSP+ Applicable CC-Link IE Field Network Master Module Model First five digits of serial number QD77GF or later (2) Engineering tool The following shows the versions of the engineering tool that can be used with CSP+. Table CSP+ Applicable Engineering Tool Engineering Tool Applicable Versions GX Works2 Version 1.90U or later GX Works3 Version 1.000A or later

58 3. SPECIFICATIONS 3.9 Function Blocks (FBs) (Supported by GX Works3 only) The function blocks in the table below are available. You can download the function block library (FB) from the URL below. MEEFAN Mitsubishi Electric FA site Table Function Block (FB) List No. Function Name Description 1 Set Initial Data Sets the initial data when a command is executed. 2 Read ID Tag Reads the data of an ID tag. 3 Write to ID Tag Writes data to an ID tag. 4 Fill Data in ID Tag Initializes the data of an ID tag using specified data. 5 Copies data of ID tag Copies data of an ID tag between channel 1 and channel 2. 6 Read UID of ID Tag Reads the UID (unit identification number) of the ID tag. 7 Measures Noise Measures the noise environment surrounding the antenna. 8 Read Module Status Read Module Status. 9 Read Initial Data Settings Reads the initial data settings. For function block library details, refer to the reference manual

59 3. SPECIFICATIONS 3.10 CC-Link IE Field Network Diagnostic Functions CC-Link IE Field Network diagnostic functions allow you to diagnose the network through engineering tools connected to a CPU unit. Table Diagnostic functions list Diagnostic items Description Reference Network status Shows CC-Link IE Field Network status graphically. - Operation test Communication test Allows you to confirm arrival and communication path of transient transmission from a connected station to a - destination station. Cable test Allows you to confirm cable connection status between a test target station and devices connected to a port of the - test target station. Link start/stop Allows you to start or stop a data link. - Information confirmation setup Manipulation of selected stations Network event Shows the history of events that occur on the network. history - Reserved station Allows you to release temporarily or cancel the temporary release/cancellation reservation on stations and shows station numbers for reserved stations. - Temporary error Allows you to setup/cancel a temporary error invalid invalid station station and shows station numbers for temporary error - setup/cancellation invalid stations. Remote reset Allows you to manipulate the unit status of selected stations remotely. Section Network status confirmation Shows CC-Link IE Field Network status graphically. Error confirmation Shows the occurrence of errors on an RFID interface module. Operation test Allows you to perform various operation tests such as communication test and cable test. Port confirmation Shows link statuses of Port1 and Port2 on an RFID interface module. Remote reset Allows you to perform a remote reset of an RFID interface module on the CC IE Field screen

60 3. SPECIFICATIONS Application System The following show the master units and engineering tools that can use the CC-Link IE Field Network diagnostic functions. (1) Applicable master station When using CC-Link IE Field Network diagnostic functions, use the following product for a master station. Model QJ71GF11-T2 First five digits of serial number or later When a master station other than the above is used, the RFID interface module cannot be used. (2) Engineering Tool When using CC-Link IE Field Network diagnostic functions, use the following engineering tool. Engineering Tool GX Works2 Applicable Versions Version 1.535H or later Remote Reset RFID interface units can be reset remotely on the CC IE Field diagnostic screen. The remote reset procedure is as follows. 1. Connect GX Works2 to a CPU unit. 2. Start the CC-Link IE Field Network diagnosis from the menu. 3. Select an icon for RFID interface module on the CC IE Field screen. 4. Click the [Remote control] button. 5. When "Do you reset the selected station?" is displayed, click [Yes]

61 4. SETUP AND PROCEDURES PRIOR TO OPERATION Chapter 4 SETUP AND PROCEDURES PRIOR TO OPERATION This chapter describes configuration and procedure before starting operation. Point When using the RFID interface module, be sure to review the Safety Precautions provided in the beginning of this manual. 4.1 Usage Precautions This section covers precautions for handling and installing the RFID interface unit. 4 (1) The module case is made of plastic. Do not drop the case or expose the case to strong impact. (2) Before touching the module, be sure to touch grounded metal or the like to release the static electricity from your body. (3) Be careful to prevent foreign objects such as chips and wire scraps from getting inside the unit Failure to do so could cause fire, failure or malfunction. (4) Tighten the module screws, within the ranges described below. A loose screw results in the risk of a short circuit, module failure, and malfunction. Screw type Terminal block mounting screw (M2.5 screw) Tightening torque range 0.2 to 0.3N m Point Do not put oil on the terminal and screw. Failure to do so may damage the screw. Tighten the terminal screw with an applicable driver. Tightening with an inapplicable driver may damage the screw. (5) When using a DIN rail, install the DIN rail while being careful of the following: (a) Applicable DIN rail model name (compliant with IEC 60715) TH35-7.5Fe TH35-7.5Al (b) DIN rail installation screw interval Tighten the screws at a pitch of 200mm or less when installing a DIN rail. (6) Securely lock the DIN rail hook. Failure to do so may cause malfunction, failure, or drop of the module

62 4. SETUP AND PROCEDURES PRIOR TO OPERATION 4.2 Installation Environment and Installation Position Installation environment (1) Installation location Do not install the I/O module to the place where: Ambient temperature is outside the range of 0 to 55 ; Ambient humidity is outside the range of 5 to 95% RH; Condensation occurs due to rapid temperature change; Corrosive gas or combustible gas is present; Conductive powder such as dust and iron powder, oil mist, salinity, or organic solvent is filled; The RFID module is exposed to direct sunlight; A strong electric field or strong magnetic field is generated; and The RFID module is subject to vibration and shock. 4 (2) Installation surface Install the RFID module on the flat surface. When the installation surface is uneven, excessive force is applied to the printed-circuit board and may cause a defect

63 4. SETUP AND PROCEDURES PRIOR TO OPERATION Installation position When installing an RFID interface module in a structure, make sure to keep the following distance between the RFID interface module and its surrounding structure or parts so as to ensure good ventilation and facilitate the module replacement. 25 or longer 25 or longer 15 or longer 30 or longer 70 or longer (3.5) Cable bending radius: R40 or greater (Antenna) R50 or greater (Ethernet) (Unit: mm)

64 4. SETUP AND PROCEDURES PRIOR TO OPERATION Installation direction The RFID module can be installed in six directions. Use the DIN rail to install the module. Celling installation DIN rail Front installation Vertical installation Upside-down installation Planar installation

65 4. SETUP AND PROCEDURES PRIOR TO OPERATION Installing the module to a DIN rail Point An example of the use of the DIN rail stopper is described in the following procedure. Fix the module according to the manual of the DIN rail stopper used. (1) Mounting procedure The procedure for installing the RFID interface unit on the DIN rail is as follows: 1. Pull down all DIN rail hooks on the back of the modules. The levers should be pulled down until they click. 2. Hang the upper tabs of the modules on a DIN rail, and push the modules in position. 3. Lock the DIN rail hooks to the DIN rail to secure the modules in position. Push each hook up until it clicks. If the hooks are beyond the reach, use a tool such as a driver. Failure to lock the DIN rail hooks securely could cause malfunction, failure or drop. 4. Loosen the screw on DIN rail stopper. 5. Hitch the bottom hook of the DIN rail stopper to the bottom of the DIN rail. Hitch the hook according to the orientation of the arrow on the front of the stopper. Attach the tab to the bottom of the DIN rail

66 4. SETUP AND PROCEDURES PRIOR TO OPERATION Attach the tab to the top of the DIN rail. 6. Hitch the upper hook of the DIN rail stopper to the top of the DIN rail. DIN rail bracket 7. Slide the DIN rail stopper up to the left side of the modules. DIN rail bracket 8. Hold the DIN rail stopper in the direction opposite to the arrow on the stopper and tighten the screw with a driver. DIN rail bracket 9. Install the DIN rail stopper on the right side of the module in the same procedure. Install the stopper upside down for the right side. Point Do not slide modules from the edge of the DIN rail when mounting them. The modules may be damaged

67 4. SETUP AND PROCEDURES PRIOR TO OPERATION (2) Removal procedure 1. Remove the DIN rail stopper. To remove the DIN rail stopper, reverse the installation procedure. 2. Pull the lower part of the RFID interface unit while pressing down the DIN rail hooks with a flathead screwdriver and remove the RFID interface unit from the DIN rail. (3) Applicable DIN rail model (compliant with IEC 60715) TH35-7.5Fe TH35-7.5Al (4) Interval between DIN rail mounting screws Tighten the screws at intervals of 200mm or less. (5) DIN rail stopper Use a stopper that is attachable to the DIN rail

68 4. SETUP AND PROCEDURES PRIOR TO OPERATION 4.3 Wiring This section describes how to wire the RFID interface unit Wiring precautions CAUTION Avoid routing near a main circuit line or power cable or bundling with them. Failure to do so may result in the influence of induced noise and surge on the product, causing malfunction. Install cables by keeping a distance of 100 mm or more from the above. Be sure to ground the FG terminal using the d class grounding for sequencers (the third class grounding). Failure to do so may result in electric shock or malfunction. Do not connect the power line reversely. Doing so may cause failure. Correctly connect the wiring of the unit after confirming the rated voltage and pin arrangement of the product. Input of voltage other than the rated voltage, connection of power other than the rated power or faulty wiring may cause a fire or failure. When installing the antenna cable to the RFID interface module, be sure that excessive external force is not applied to the connector connecting area of the module. Connector connecting area Installation curvature radius. Secure the antenna cable without applying external force to the connector connecting area

69 4. SETUP AND PROCEDURES PRIOR TO OPERATION Wiring unit power supply and FG (1) Tightening torque Install screws for unit power supply and FG within the following tightening torque range. Tightening the screws too much may damage the RFID interface module case. Screw type Terminal block mounting screw (M2.5 screw) Tightening torque range 0.2 to 0.3N m (2) Wire to be used The following table describes the wire to be connected to the terminal block for module power supply and FG. Diameter Type Material Temperature rating 22 to 16 AWG Stranded Copper 75 or more (3) Installation/removal of connector To install the connector for the unit power supply and FG, tighten the connector fixing screw using a flathead screwdriver. Failure to securely hold with screws could cause drop, short circuit or malfunction. To remove the connector for the unit power supply and FG, loosen the connector fixing screw using a flathead screwdriver

70 4. SETUP AND PROCEDURES PRIOR TO OPERATION (4) Processing method of the cable terminal Peel approximately 10 mm from the cable terminal and install a rod type crimp terminal. Precautions Long peeling length of a cable may cause the conductive part to stick out into the front of connector, which may cause electric shock and short circuit between adjacent connectors. Short peeling length of a cable may cause failure to obtain reliable contact. (5) Installing a cable To install the cable, press the cable with a rod type crimp terminal into the cable entry. After pressing the cable into the cable entry, pull it gently and ensure that the cable is clamped

71 4. SETUP AND PROCEDURES PRIOR TO OPERATION (6) Removing cable Remove the cable, following the procedure below: 1) Push in the opening/closing button for the connector for the unit power supply and FG using a Phillips-head screwdriver or flathead screwdriver. 2) Pull the cable with a rod type crimp terminal out with the opening/closing button for the connector for the unit power supply and FG pushed in. 1 2 (7) Precautions To connect the cable to the connector for the unit power supply and the FG, use a rod type crimp terminal. If the peeled cable is inserted into the cable entry, it cannot be clamped securely. Determine the length of the cable to be peeled based on rod type crimp terminal specifications. Use a crimp tool to install the rod type crimp terminal on the cable. Check the shape of the cable entry and that of the rod type crimp terminal before inserting the rod type crimp terminal. Make sure the rod type crimp terminal is facing the correct direction when inserting it. If the rod type crimp terminal larger than the cable entry is inserted, it may damage the connector. Shape of the cable entry 2.0mm 2.8mm

72 4. SETUP AND PROCEDURES PRIOR TO OPERATION (8) Appropriate crimp terminal Appropriate rod type crimp terminals and crimp tools for the connector for the unit power supply and FG are shown below: Product name Rod type crimp terminal Model name Appropriate cable size TE 0.5-8, TE to 0.5mm 2 TE , TE mm 2 TE 1.0-8, TE to 1.0mm 2 TE 1.5-8, TE to 1.5mm 2 AI TQ 0.3mm 2 AI 0.5-8WH, AI WH 0.5mm 2 AI GY, AI GY 0.75mm 2 AI 1-8RD, AI 1-10RD 1.0mm 2 AI 1.5-8BK, AI BK 1.5mm 2 Rod type crimp terminal tool NH79 CRIMPFOX6 Contact NICHIFU Co., Ltd. PHOENIX CONTACT Wiring of Ethernet Cable (1) Ethernet cables Wire the Ethernet cable with an Ethernet cable that meets the standards of 1000BASE-T.: Type Category Connector Standards STP (double shield) Category 5e or higher RJ45 Cables that meet the following standards: IEEE802.3 (1000BASE-T) ANSI/TIA/EIA-568-B (Category5e) (2) Installing the Ethernet cable 1. Power off the power supplies of the main RFID module and the external device. 2. Push the Ethernet cable connector into the RFID interface unit a click is heard, taking care to insert it in the correct direction as shown in the figure on the left. 3. Power on the module. 4. Power on the external device. 5. Check if the LINK LED on the port into which the Ethernet cable is connected is on. The LINK LED may take a few seconds to turn on after power-on. If the LINK LED does not turn on, refer to the troubleshooting section and take a corrective action

73 4. SETUP AND PROCEDURES PRIOR TO OPERATION Point PORT1 and PORT2 need not to be distinguished. When only one connector is used in star topology, either PORT1 or PORT2 can be connected. Either one can be used When two connectors are used in line topology or ring topology, an Ethernet cable can be connected to the connectors in any combination. For example, the cable can be connected between PORT1s and between PORT1 and PORT2. (1) Connection between PORT1s or PORT2s (2) Connection between PORT1 and PORT2 Cables can be connected in any order

74 4. SETUP AND PROCEDURES PRIOR TO OPERATION (3) Removing the Ethernet cable 1. Power off the power supplies of the RFID interface unit and the remote device. 2. Press the latch down and unplug the Ethernet cable. (4) Precautions (a) Laying Ethernet cables Place the Ethernet cable in a duct or clamp them. If not, dangling cable may swing or inadvertently be pulled, resulting in damage to the module or cables or malfunction due to poor contact. Do not touch the core of the connector of the cable or the module, and protect it from dirt and dust. If any oil from your hand, or any dirt or dust sticks to the core, it can increase transmission loss, causing data link to fail. Check the following: Is any Ethernet cable disconnected? Does any Ethernet cable short? Are the connectors securely connected? (b) Broken cable latch Do not use Ethernet cables with broken latches. Doing so may cause the cable to unplug or malfunction. (c) Connecting and disconnecting the Ethernet cable Hold the connector part when connecting and disconnecting the Ethernet cable. Pulling the cable connected to the module may result in damage to the module or cable or malfunction due to poor contact

75 4. SETUP AND PROCEDURES PRIOR TO OPERATION (d) Connectors without Ethernet cable To prevent dust from entering the module, attach the provided connector cover. (e) Maximum station-to-station distance (Maximum Ethernet cable length) The maximum station-to-station distance is 100m. However, the distance may be shorter depending on the operating environment of the cable. For details, contact the manufacturer of the cables used. (f) Bending radius of the Ethernet cable There are restrictions on the bending radius of the Ethernet cable. Check the bending radius in the specifications of the Ethernet cables used

76 4. SETUP AND PROCEDURES PRIOR TO OPERATION Connecting antenna and cable When connecting the antenna cable, follow the procedure described below. (1) Channels the antenna is connected to (a) Separate amplifier type Up to two antennas of separate amplifier type can be used. When using one antenna, connect it to channel 1. RFID interface module Antenna (Separate amplifier type) ID tag Amplifier (b) Amplifier built-in type The amplifier built-in type antenna can be connected to channel 1 only. When the amplifier built-in type antenna is used, do not connect the antenna to channel 2. Antenna (Amplifier built-in type) RFID interface module ID tag Channel 2 cannot be used

77 4. SETUP AND PROCEDURES PRIOR TO OPERATION Point The separate amplifier type antenna and the amplifier built-in type antenna cannot be mixed in one RFID interface unit. For connectable antennas, refer to 2.4 "Component List". (2) How to install 1. Insert by aligning the mark of white point on the body with that on the connector while holding the fixed part of the connector. Insert by aligning the mark of white point on the body with that on the connector. 2. Push the connector straight until it is locked. Point Even if you push the ring, the connector is not locked. So make sure to hold the fixed part of the cable to push

78 4. SETUP AND PROCEDURES PRIOR TO OPERATION (3) How to remove 1) Pull out the connector straight by holding the ring Ring Point You cannot pull out the connector by holding the fixed part of the cable. Do not forcibly pull the cable. CAUTION Do not connect or disconnect the antenna cable with power supplied. Doing so may cause failure. (4) About unused channels Attach an accessory dust-proof antenna connector cover to channels that are not connected to an antenna connector

79 4. SETUP AND PROCEDURES PRIOR TO OPERATION 4.4 Setup and Procedures Prior to Operation Procedures prior to operation are shown below: Start Verify the specifications of the RFID interface module, and design the system. (Refer to Chaptor 3) Wire the data link cable, execute wiring to the external power supply terminal, and connect and install the amplifier and antenna. (Refer to Sections 4.3, the OMRON User's Manual, and the CC-Link Master Module User's Manual.) Install the ID tag. (Refer to the OMRON User's Manual.) Set the station number setting switch (Unit TEST). (Refer to Section 7.4.) Set the programmable controller CPU to STOP. Set "Station number" using the station number setting switch and press the reset switch. Configure parameter settings for the master unit. (Refer to the master unit user's manual.) Turn ON the system power supply. Implement unit test in the TEST mode. (Refer to Section 7.3.) Set "Communication test" using the station number setting switch and press the reset switch. Write the network parameters to the programmable controller CPU, reset the CPU, and run the programmable controller CPU using written parameters. Verify operation using the LEDs. If the data link is implemented normally, the D LINK LED will turn on and the L ERR. LED will remain off. Implement communication test in the TEST mode.(refer to Section ) Create a communication program with the ID tag. (Refer to Chaptor 6.) Set "Noise level measurement" using the station number setting switch and press the reset switch. Perform noise level measurements in the TEST mode.(refer to Section ) Create an additional program that performs the write protect function of ID tags (refer to Section 5.3) as necessary. Write the program to the programmable controller CPU, and reset the programmable controller CPU. Set the programmable controller CPU to "RUN". Operation

80 4. SETUP AND PROCEDURES PRIOR TO OPERATION 4.5 Setting the Station Number This section describes the station number setting for CC-Link IE Field Network (1) How to set The setting value of the station number becomes valid when the module is powered on. Thus, set the station number when the module is powered off. The hundreds and tens places of the station number are set with x10. The ones place of the station number is set with x1. Ex To set the station to 115, set the switch as shown below. (2) Setting range Set the station number from 1 to 120. Setting the value other than 1 to 120 causes a communication error with the ERR.LED lit and the D LINK LED flashes or turns off. (The RUN LED flashes.) For details, refer to Section (6). Point Do not change the station number setting switch while the module is powered on. Changing the station number setting switch causes a minor error and flashes the ERR. LED. Returning the station number setting switches to the previous setting eliminates the error after five seconds and turns off the ERR. LED. Do not set a station number duplicated with other station numbers. If the station number is duplicated, a communication error occurs and the D LINK LED does not turn on

81 4. SETUP AND PROCEDURES PRIOR TO OPERATION 4.6 Parameter Settings for CC-Link IE Field Network Setting network configuration To use the RFID interface unit, make the following settings in the network configuration setting for setting to the CC-Link IE Field Network master station. For information on how to set, refer to user's manual of the master unit used. Table Setting Network Configuration Settings Setting details Station number Set the RFID interface unit station number. (For details, refer to Section 4.5.) Station type Set "Intelligent device station". RX/RY setting Number of points 32 points Number The amount of data that of setting can be written/read with points one ID instruction RWr/RWw setting Number of points 16 8 bytes bytes : : bytes Formula for calculating the number of setting points The maximum amount of data that can be written/read with one ID instruction (in 8 bytes) + 8 points (For details, refer to Section 3.5 "Remote Register" and Section 3.6 "Remote Register Details".)

82 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING Chapter 5 THINGS YOU NEED TO KNOW BEFORE PROGRAMMING 5.1 Operation Mode The RFID interface module has two operation modes: RUN mode and TEST mode Switching the operation mode The operation mode is switched using one of the following two switches: (1) For the station number setting switch on the front of the RFID interface unit Station number setting switch 10 1 RUN mode/test mode Reference 1 to120 RUN mode Section TEST 1,2 TEST mode Section TEST 0 Unit TEST mode Section 7.4 (2) For the sequence program (station number setting switch settings: 1 to 120) TEST Mode Execution Request (RYn5) RUN mode/test mode OFF RUN mode ON TEST mode RUN mode RUN mode allows you to use all commands. Table RUN mode function list Function Command Description Reference Read Reads data from an ID tag. *1 Section UID Read Reads the UID (unit identification number) of an ID tag. Section Read Read Initial Data Reads the Initial Data Settings. Section Settings Write Write Writes data to an ID tag. *1 Section Duplicate Copy Copies data of an ID tag between channel 1 and channel 2. Section Initialize Fill data Initializes data of an ID tag with specified data. Section Management Measure Noise Measures the noise environment around an antenna. Section *1 Not compatible with data handled by Read with Error Correction, Write with Error Correction, or Data Check of the EQ-V680D1/EQ-V680D2 RFID interface module TEST mode TEST mode is used during ID system installation, maintenance, and troubleshooting. Table TEST mode functions list Function Description Reference Communication test Noise level measurement Has the RFID interface module read ID tag data without operating the sequence program. Checks whether a sequence program, antenna, or ID tag caused a read error when a data read error occurs with an ID tag. Checks whether noise that adversely affects communication with an ID tag is occurring in the area surrounding the antenna installation location. Section (2) Section (3)

83 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING Using TEST mode (1) How to use TEST mode (a) Operation of TEST mode using the station number setting switch Set the station number setting switch x10 to "TEST" and x1 to "1" or "3", and then turn on the power or reset. TEST mode operation is started based on the setting. The test results are indicated by the amplifier side LED. Table Configuring the Station Number Setting Switch Configuring the station number setting switch Test description Communication test TEST 2 Noise level measurement 5 Even if the station number setting switch is changed after starting TEST mode operation, the contents of test execution cannot be changed. The test results are not stored in the processing result storage area (RWrm+8H, RWrm+CH). (CC-Link IE Field Network communication is not performed in Test mode.) (b) Operating TEST mode using the sequence program 1) Set the station number setting switch to 1 to 120 and turn on the power or reset. RUN mode operation is started based on the setting. 2) Set TEST mode operation. Set the test mode and operation details to be executed in the test operation mode specification area (RWwm+0H). Table Test Operation Mode Specification Area Set value Operation 0000H, value other than below Communication test 00C0H Noise level measurement Point The TEST execution contents cannot be changed after the mode has transitioned to TEST mode, even if you change the test operation mode specification area (RWwm+0H). Set the execution contents in the test operation mode specification area (RWwm+0H) before transitioning to TEST mode. 3) Execute TEST mode. When the TEST mode execution request (RYn5) is turned ON, TEST mode operation is started based on the set conditions of the test operation mode specification area (RWwm+0H). 4) Exit the TEST mode. When the TEST mode execution request (RYn5) is turned OFF, TEST mode operation will end and operate in RUN mode

84 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (2) Communication test The communication test reads data from ID tags. If an ID tag data read error occurred, the test can check if the error was caused by the sequence program, antenna, or ID tag. The communication test performs read communication with the antenna on a per second basis. Point (1) The communication test checks read only. It does not check write. (2) The number of test operation bytes of the communication test is 1. (3) Test the channels 1 and 2 alternately. (a) How to execute a communication test using the station number setting switch 1) Set the TEST mode operation. Set the station number setting switch x10 to "TEST" and x1 to "1", and then turn on the power or reset. 2) Start communication with the ID tag. The test results are indicated by the amplifier side LED. (b) Executing the communication test using a sequence program 1) Set the TEST mode operation. Set the test operation mode specification area (RWwm+0H) to "0000H". 2) Start communication with the ID tag. When the TEST mode execution request (RYn5) is turned ON, communication with the ID tag is executed, and the communication results are stored in the processing result monitor storage area (RWrm+8H, RWrm+CH). The test result can be verified using the amplifier side LED as well. For the information on the indication on the amplifier side, ask OMRON Corporation. Table Communication Test Result Address CH1 CH2 RWrm+8H RWrm+CH Data Format Processing Time / Error Code When normal Processing time 0001 to 9999 [BCD](Unit: 10ms) 70: Tag communication error 72: Tag not present error When abnormal E0 + Error code 79: ID system error 1 7A: Address error 7C: Antenna error

85 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (3) Noise level measurement Noise level measurement allows you to verify the effects of noise countermeasures on the noise source. The test measures the noise level of the set surrounding environment. Point (1) Test the channels 1 and 2 alternately. (a) How to measure noise level using the station number setting switch 1) Set the TEST mode operation. Set the station number setting switch x10 to "TEST" and x1 to "1" or "2", and then turn on the power or reset. 2) Start Noise level measurement The measurement results are indicated by the amplifier side LED. (b) Executing the communication test using a sequence program 1) Set the TEST mode operation. Set the test operation mode specification area (RWwm+0H) to "00C0H". 2) Start noise level measurement. When the TEST mode execution request (RYn5) is turned ON, the noise level is measured, and the measurement results are stored in the processing result monitor storage area (RWrm+8H, RWrm+CH). The measurement result can be verified using the amplifier side LED as well. For the information on the indication on the amplifier side, ask OMRON Corporation. Table Noise Level Measurement Result Address CH1 CH2 RWrm+8H RWrm+CH Data format Measurement Result / Error Code During operation C0 + Measurement Result 00 to 99 [BCD] (maximum value) When abnormal E0 + Error code 7C: Antenna error

86 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING 5.2 ID tag memory The following describes the memory of ID tags capable of communicating with the RFID interface module. Communication between V680 series ID tags and antennas is performed in units of blocks (units of 8 bytes). When a write error occurs, the possibility exists that a data error exists in a block. (1) EEPROM type (1k byte): V680-D1KP Address Bit H Bit H Write protect setting area Block (8 bytes) User area 0006H 0007H 0008H 0009H 000FH 0010H Block (8 bytes) 03E6H 03E7H 1 byte (2) FRAM type (2k bytes): V680-D2KF,V680S-D2KF Address 0000H Bit 7 Bit H Write protect setting area Block (8 bytes) User area 0006H 0007H 0008H 0009H 000FH 0010H Block (8 bytes) 07CEH 07CFH 1 byte

87 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (3) FRAM type (8k bytes): V680-D8KF Address 0000H Bit 7 Bit H Write protect setting area Block (8 bytes) User area 0006H 0007H 0008H 0009H 000FH 0010H Block (8 bytes) 1FFEH 1FFFH 1 byte (4) FRAM type (8k bytes): V680S-D8KF Address 0000H Bit 7 Bit H Write protect setting area Block (32 bytes) User area 001EH 001FH 0020H 0021H 003FH 0040H Block (32 bytes) 1FFEH 1FFFH 1 byte (5) FRAM type (32k bytes): V680-D32KF Address 0000H Bit 7 Bit H Write protect setting area Block (8 bytes) User area 0006H 0007H 0008H 0009H 000FH 0010H Block (8 bytes) 7FE6H 7FE7H 1 byte

88 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING 5.3 Write protect function The write protect function is provided to ensure that important data, such as the product models and types stored in an ID tag, do not get lost by careless writing. After important data are written, it is recommended that you write-protect the data using the method described below. The RFID interface module is provided with a write protect function for enabling/disabling ID tag write protection How to set write protect Set the write-protect range in the four bytes of addresses 0000H to 0003H of the ID tag. Specify the enable/disable setting for using the write protect function using the most significant bit of the ID tag address 0000H. Address 0000H 0001H 0002H 0003H Table Write-Protect Setting Meth Bit Enable Upper two digits of start address (00H to7fh) /Disable Lower two digits of start address (00H to FFH) Upper two digits of end address (00H to FFH) Lower two digits of end address (00H to FFH) (1) Write protect function enable/disable setting (bit 7 of address 0000H) 0 (OFF): Disable (Do not write protect) 1 (ON): Enable (Write protect) (2) Write protect range setting (address 0000H to address 0003H) Start address: 0000H to 7FFFH End address: 0000H to FFFFH

89 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (3) Write protect setting example (a) When write-protecting data from address 0015H to 0120H (start address < end address) Address Table Write Protect Setting Example (Start Address < End Address) Bit Bytes 0000H H 0001H H 0002H H 0003H H Address 0000H 0015H Write protect area 0120H 03E7H (b) When write-protecting 1 byte only (start address = end address) Address Table Write Protect Setting Example (Start Address = End Address) Bit Bytes 0000H H 0001H H 0002H H 0003H H Address 0000H 0120H Write protect area 03E7H

90 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (c) When the end address exceeds the last ID tag address (last ID tag address < end address) The following is a setting example of a case where the ID tag is V680-D1KP. The addresses up to the last ID tag address 03E7H are write protected. Table Write Protect Setting Example (Last ID Tag Address < End Address) Address Bit Bytes 0000H H 0001H H 0002H H 0003H CFH Address 0000H 0120H Start Address Write protect area 03E7H Last ID Tag Address 07CFH End Address

91 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (d) When the start address exceeds the end address (start address > end address) The following is a setting example of a case where the ID tag is V680-D1KP. The addresses from the start address to the last ID tag address 03E7H and from 0004H to the end address are write protected. Table Write Protect Setting Example (Start Address > End Address) Address Bit Bytes 0000H H 0001H H 0002H H 0003H H Address 0000H 0004H 0120H End Address 0300H Start Address 03E7H How to cancel write protect When you want to cancel a write protect setting, set the most significant bit of the address 0000H to 0. The write protect setting is canceled, and the start and end address settings set in addresses 0000H to 0003H are made invalid. Table Write Protect Cancellation Method Address Bit Bytes 0000H H 0001H H 0002H H 0003H H

92 6. HOW TO COMMUNICATE WITH ID TAGS Chapter 6 HOW TO COMMUNICATE WITH ID TAGS The following describes the programming method for communicating with ID tags using instructions. When utilizing the program examples introduced in this chapter into an actual system, be sure to fully verify that control in the target system will be unproblematic. 6.1 Programming Precautions The following describes the precautions and the like that you need to know before using the RFID interface module to create a program for communicating with ID tags. (1) Executing instructions Multiple instructions cannot be executed simultaneously. Be sure to create an interlock in the program to ensure that multiple instructions are not executed. Simultaneous execution between different channels (channels 1 and 2) is possible

93 6. HOW TO COMMUNICATE WITH ID TAGS 6.2 Command/Specification List The following describes the command types and specification contents that can be used with the RFID interface module. 6 Command Name Initial Data Setting Communication Specification (RWwm+0H, RWwm+4H) Processing Specification (RWwm+2H, RWwm+6H) Table Command/Specification List Command Code (RWwm+0H, RWwm+4H) Start Address Specification Range (RWwm+1H, RWwm+5H) Number of Processing Points Range (RWwm+2H, RWwm+6H) RUN mode Command Option (RWwm+3H, RWwm+7H) Write data (RWwm+8H and thereafter) Read data (RWrm+8H and thereafter) Read 0000H - Read data 0000H: Trigger Processing 0001H to H: Auto Specification 0800H Write 0001H Write data 0002H: Repeat Data storage 0000H auto order to 0001H 0003H: FIFO 0000H: FFFFH to Fill data trigger Upper Lower 0800H 0000H Fill data 0004H: FIFO 0001H: 0006H H: to repeat Lower Upper All data FFFFH - specified Copy Read UID Measure Noise Read Initial Data Settings 0000H: Trigger 0001H: Auto 0000H: Trigger 0001H: Auto 0002H: Repeat auto 0003H: FIFO trigger 0004H: FIFO repeat H 000CH 0010H 0020H Copy source address (read) 0000H to FFFFH 0001H to 0800H Copy destination address (write) 0000H to FFFFH UID Measurement result Initial data set value Reference Section Section Section Section Section Section Section m: Address assigned to master station by station number setting. n: 8H+ (Write data specification area (CH1)) or 8H+ (Read data storage area (CH1)) Read The Read instruction reads data from the ID tag starting from the address specified in the start address specification area (RWwm+1H, RWwm+5H), in an amount equivalent to the number of bytes specified in the number of processed points specification area (RWwm+2H, RWwm+6H). The read data is stored in the read data storage area 1 and thereafter (RWrm+8H and thereafter, RWrm+nH)

94 6. HOW TO COMMUNICATE WITH ID TAGS Write The Write instruction writes data to the ID tag starting from the address specified in the start address specification area (RWwm+1H, RWwm+5H), in an amount equivalent to the number of bytes specified in the number of processed points specification area (RWwm+2H, RWwm+6H). The data to be written is stored in the write data specification area 1 and thereafter (RWwm+8H and thereafter, RWwm+nH) Fill data The Fill Data instruction writes the same data to the ID tag starting from the address specified in the start address specification area (RWwm+1H, RWwm+5H), in an amount equivalent to the number of byte sets specified in the number of processed points specification area (RWwm+2H, RWwm+6H). The data for executing Fill Data is stored in write data specification area 1 (RWwm+8H, RWwm+nH) Copy When the Copy command is specified using the ID instruction execution request (RYn4) of channel 1, the command reads the data of the ID tag of channel 1 (copy source) and writes the data to the ID tag of channel 2 (copy destination). When the Copy command is specified using the ID instruction execution request (RYnC) of channel 2, the command reads the data of the ID tag of channel 2 (copy source) and writes the data to the ID tag of channel 1 (copy destination). When the Copy command ends normally, ID instruction complete (RXn4, RXnC) of the copy source turns ON. (1) Copy source antenna The copy source antenna reads from the ID tag the number of byte sets specified in the number of processed points specification area (RWwm+2H, RWwm+6H) from the address specified in the head address specification area (RWwm+1H, RWwm+5H). The communication specifications available are trigger and auto only. (2) Copy destination antenna The copy destination antenna writes data to the ID tag in an amount equivalent to the number of byte sets specified in the number of processed points specification area (RWwm+2H, RWwm+6H) from the address specified in the command option specification area (RWwm+3H, RWwm+7H). The communication specification is not available for selection. Communication is executed by a trigger

95 6. HOW TO COMMUNICATE WITH ID TAGS Read UID The Read UID instruction reads the UID (unit identification number; 8bytes) of the ID tag, and stores the value in the read data storage areas 1 to 4 (RWrm+8H to RWrm+BH, RWrm+nH to RWrm+n+3H) Measure noise The Measure Noise instruction measures the noise environment surrounding the antenna, and stores the average value, maximum value, and minimum value of the measured data in the read data storage areas 1 to 3 (RWrm+8H to RWrm+AH, RWrm+nH to RWrm+n+2H). Channel 1 Channel 2 Measured Data RWrm+8H RWrm+nH Average value C0H + 00H to 99H [BCD] RWrm+9H RWrm+n+1H Maximum valu C0H + 00H to 99H [BCD] RWrm+AH RWrm+n+2H Minimum value C0H + 00H to 99H [BCD] Read Initial Data Settings The Read Initial Data Settings instruction reads the communication specification, communication setting, processing specification, and auto system command wait type setting set in the RFID interface module, and stores the values in the read data storage areas 1 to 4 (RWrm+8H to RWrm+BH, RWrm+nH to RWrm+n+3H). Channel 1 RWrm+8H RWrm+9H RWrm+AH RWrm+BH Channel 1 RWrm+nH RWrm+n+1H RWrm+n+2H RWrm+n+3H Communication specification Communication setting Processing specification Auto system command wait time setting

96 6. HOW TO COMMUNICATE WITH ID TAGS 6.3 Control Methods According to Communication Specification Trigger With the trigger communication specification, communication is performed with the ID tag stopped within the antenna communication area. 1. When the ID command execution request (RYn4, RYnC) is turned ON, ID-BUSY (RXn3, RXnB) is turned ON and communication with the ID tag is started. 2. After communication with the ID tag ends, ID command complete (RXn4, RXnC) turns ON. 3. When the ID command execution request (RYn4, RYnC) is turned OFF, ID-BUSY (RXn3, RXnB) and ID command complete (RXn4, RXnC) turns OFF and the module changes to a standby state. 4. If an ID tag does not exist within the communication area of the antenna the moment the ID command execution request (RYn4, RYnC) is turned ON, bit 10 of the error details storage area (RWrm+1H, RWrm+5H) turns ON and error detection (RXn5, RXnD) turns ON. With the trigger communication specification, communication cannot be performed normally, bit 12 of the error details storage area (RWrm+1H, RWrm+5H) turns ON, and error detection (RXn5) turns ON when multiple ID tags are within the antenna communication area. Thus, make sure there is only one ID tag within the antenna communication area. ID tag B ID tag A Communication area Antenna ID command execution request (RYn4, RYnC) ID-BUSY(RXn3, RXnB) ID command complete (RXn4, RXnC) Error detection (RXn5, RXnD) Result reception (RYn6, RYnE) Tag not present error ID communication complete (RXn2, RXnA) Communication with ID tag Communication No detection (Movement of ID tag A) (Movement of ID tag B) Within communication area Outside communication area

97 6. HOW TO COMMUNICATE WITH ID TAGS Auto With the auto communication specification, communication is performed while the ID tag is being moved. 1. When the ID command execution request (RYn4, RYnC) is turned ON, ID-BUSY (RXn3, RXnB) is turned ON and ID tag detection is started. 2. When an ID tag enters within the antenna communication area, communication with the ID tag is started. 3. After communication with the ID tag ends, ID command complete (RXn4, RXnC) turns ON. 4. When the ID command execution request (RYn4, RYnC) is turned OFF, ID-BUSY (RXn3, RXnB) and ID command complete (RXn4, RXnC) turns OFF and the module changes to a standby state. 5. With the auto communication specification, communication cannot be performed normally, bit 12 of the error details storage area (RWrm+1H, RWrm+5H) turns ON, and error detection (RXn5, RXnD) turns ON when multiple ID tags are within the antenna communication area at once. Thus, make sure there is only one ID tag within the antenna communication area. If the time set in the auto system command wait time setting area (RWwm+3H) elapses during waiting for the communicable ID tag, bit 10 of the error details storage area (RWrm+1H, RWrm+5H) turns ON and error detection (RXn5) turns ON. ID tag B ID tag A Communication is started by the ID tag entering within the communication area. Communication area Antenna ID command execution request (RYn4, RYnC) ID-BUSY (RXn3, RXnB) ID command complete (RXn4, RXnC) Error detection (RXn5, RXnD) Result reception (RYn6, RYnE) ID communication complete (RXn2, RXnA) Communication with ID tag Communication Waiting for ID tag Communication (Movement of ID tag A) ID tag within communication area (Movement of ID tag B) No ID tag ID tag within communication area

98 6. HOW TO COMMUNICATE WITH ID TAGS Repeat auto With the repeat auto communication specification, communication is performed while the ID tag is being moved. Communication is performed with the ID tags that enter the antenna communication area one after the other, until the ID command execution request (RYn4, RYnC) is turned OFF. 1. When the ID command execution request (RYn4, RYnC) is turned ON, ID-BUSY (RXn3, RXnB) is turned ON and ID tag detection is started. 2. When an ID tag enters within the antenna communication area, communication with the ID tag is started. 3. After communication with the ID tag ends, ID command complete (RXn4, RXnC) turns ON. 4. When result reception (RYn6, RYnE) is turned ON, ID command complete (RXn4, RXnC) turns OFF and detection of the next ID tag within the antenna communication area is started. 5. Subsequently, Steps 2 to 4 are repeated. 6. When the ID command execution request (RYn4, RYnC) is turned OFF, ID-BUSY (RXn3, RXnB) is turned OFF and ID tag detection is ended. 7. With the repeat auto communication specification, communication cannot be performed normally, bit 12 of the error details storage area (RWrm+1H, RWrm+5H) turns ON, and error detection (RXn5) turns ON when multiple ID tags are within the antenna communication area at once. Thus, make sure there is only one ID tag within the antenna communication area. If the time set in the auto system command wait time setting area (RWwm+3H) elapses during waiting for the communicable ID tag, bit 10 of the error details storage area (RWrm+1H, RWrm+5H) turns ON and error detection (RXn5) turns ON. Communication is started by the ID tag entering within the communication area. ID tag C ID tag B ID tag A Communication area ID command execution request (RYn4, RYnC) Antenna ID-BUSY(RXn3, RXnB) ID command complete (RXn4, RXnC) Error detection (RXn5, RXnD) Result reception (RYn6, RYnE) ID communication complete (RXn2, RXnA) Communication with ID tag Waiting for ID tag Communication Waiting for ID tag Communication Waiting for ID tag Communication (Movement of ID tag A) Within communication area (Movement of ID tag B) Within communication area (Movement of ID tag C) Within communication area

99 6. HOW TO COMMUNICATE WITH ID TAGS FIFO trigger With the FIFO trigger communication specification, communication is performed while the ID tag is stopped within the antenna communication area. 1. When the ID command execution request (RYn4, RYnC) is turned ON, ID-BUSY (RXn3, RXnB) is turned ON and communication with the ID tag is started. 2. After communication with the ID tag ends, operation of the ID tag is disabled, and ID command complete (RXn4, RXnC) turns ON. 3. When the ID command execution request (RYn4, RYnC) is turned OFF, ID-BUSY (RXn3, RXnB) and ID command complete (RXn4, RXnC) turns OFF, and the module changes to a standby state. 4. When an operable ID tag does not exist within the antenna communication area the moment the ID command execution request (RYn4, RYnC) is turned ON, bit 10 of the error details storage area (RWrm+1H, RWrm+5H) turns ON and error detection (RXn5, RXnD) turns ON. 5. With the FIFO trigger communication specification, communication is possible if there is one operable ID tag among the ID tags within the antenna communication area. When two or more operable ID tags exist, communication cannot be performed normally, bit 12 of the error details storage area (RWrm+1H, RWrm+5H) turns ON, and error detection (RXn5, RXnD) turns ON. When the ID command execution request is turned ON, communication is performed with an operable ID tag that exists within the communication area. When an operable ID tag is not present, a tag not present error occurs. The operation of an ID tag that completed communication is disabled. When the ID tag moves outside the communication area, the operation disabled status is cleared. ID tag C ID tag B ID tag A Communication area Antenna ID command execution request (RYn4, RYnC) ID-BUSY (RXn3, RXnB) ID command complete (RXn4, RXnC) Error detection (RXn5, RXnD) Result reception (RYn6, RYnE) Tag not present error ID command complete(rxn2, RXnA) Communication with ID tag Communication Communication No detection (Movement of ID tag A) Within communication area Operation disabled (Movement of ID tag B) Within communication area Operation disabled (Movement of ID tag C) Within communication area

100 6. HOW TO COMMUNICATE WITH ID TAGS FIFO repeat Communication is started by the ID tag entering within the communication area. With the FIFO repeat communication specification, communication is performed while the ID tag is being moved. Communication is performed with the ID tags that enter the antenna communication area one after the other, until the ID command execution request (RYn4, RYnC) is turned OFF. 1. When the ID command execution request (RYn4, RYnC) is turned ON, ID-BUSY (RXn3, RXnB) is turned ON and ID tag detection is started. 2. When the ID tag enters within the antenna communication area, communication with the ID tag is started. 3. After communication with the ID tag ends, operation of the ID tag is disabled, and ID command complete (RXn4, RXnC) turns ON. 4. When result reception (RYn6, RYnE) is turned ON, ID command complete (RXn4, RXnC) turns OFF, and detection of the next ID tag that enters the antenna communication area is started. 5. Subsequently, Steps 2 to 4 are repeated. 6. When the ID command execution request (RYn4, RYnC) is turned OFF, ID-BUSY (RXn3, RXnB) is turned OFF and ID tag detection is ended. 7. Communication is possible if there is one operable tag among the ID tags within the antenna communication area. When two or more operable ID tags exist, communication cannot be performed normally, bit 12 of the error details storage area (RWrm+1H, RWrm+5H) turns ON, and error detection (RXn5, RXnD) turns ON. If the time set in the auto system command wait time setting area (RWwm+3H, RWwm+7H) elapses during waiting for the communicable ID tag, bit 10 of the error details storage area (RWrm+1H, RWrm+5H) turns ON and error detection (RXn5, RXnD) turns ON. ID tag C ID tag B ID tag A The operation of an ID tag that completed communication is disabled. When the ID tag moves outside the communication area or the ID command execution request (RYn4, RYnC) is turned OFF, the operation disabled status is cleared. Communication area Command execution request (RYn4, RYnC) Antenna ID-BUSY (RXn3, RXnB) ID command complete (RXn4, RXnC) Error detection (RXn5, RXnD) Result reception (RYn6, RYnE) ID command complete (RXn2, RXnA) Communication with ID tag Wainging for ID tag Communication Wainging for ID tag Communication Wainging for ID tag Communication (Movement of ID tag A) Within communication area Operation disabled (Movement of ID tag B) Within communication area Operation disabled (Movement of ID tag C) Within communication area Operation disabled

101 6. HOW TO COMMUNICATE WITH ID TAGS 6.4 Sample programs The following describes ECLEF-V680D2 programming procedures, read/write basic programs, and program examples. When utilizing the program examples introduced in this chapter in an actual system, be sure to fully verify that use will not be problematic in the control of the target system. For the master module, refer to the user's manual of the master module used Precautions for Programming This section describes precautions to create CC-Link IE Field Network programs. (1) Cyclic transmission program For a cyclic transmission program, interlock with the following link special relay (SB) and link special register (SW). Own station data link status (master station) (SB0049) Data link status (each station) (SW00B0 to SW00B7) For details on the link special relay (SB) and link special register (SW), refer to the user's manual for the master/local module used. Assuming that the RFID interface unit station number is set to 1, devices used in program examples are shown below: Table Device Setting for Cyclic Transmission Program Description Own station data link status (SB0049) Data link status (each station) station No.1 (SW00B0) SB0049 SW00B0.0 Device Exsample Interlock example Communication program with station No

102 6. HOW TO COMMUNICATE WITH ID TAGS (2) Transient transmission program For a transient transmission program, interlock with the following link special relay (SB) and link special register (SW). Own station baton pass status (master station) (SB0047) Baton pass status (each station) (SW00A0 to SW00A7) For details on the link special relay (SB) and link special register (SW), refer to the user's manual for the master/local module used. Assuming that the RFID interface unit station number is set to 1, devices used in program examples are shown below: Table Device Setting for Transient Transmission Program Description Own station baton pass status (SB0047) The state of baton pass of the RFID interface unit (station number 1) SB0047 Device SW00A0.0 Exsample Interlock example Start Contact SB47 SW00A0.0 RIRD/RIW instruction for 局番 1に対するRIRD/RIWT 命令 station number

103 6. HOW TO COMMUNICATE WITH ID TAGS Programming procedure Using ECLEF-V680D2, create a program that performs reading and writing with ID tags following the procedure shown below. Start Communication specification Communication setting Processing specification Set up auto system command wait time Initial settings (*1) Set the initial data processng complete flag (RY(n+1)8) to ON (*2) Set the initial data setting request flag (RY(n+1)9) to ON (*2) Execute ID command END *1 During QCPU (Q mode) and LCPU use, configuration is possible using the remote device station initialization procedure registration function. *2 For the ON/OFF timing of the initial data processing complete flag (RY (n+1) 8) and initial data setting request flag (RY (n+1) 9) flag, refer to Section

104 6. HOW TO COMMUNICATE WITH ID TAGS Program example conditions A program example using GX Works2 is shown below. (1) System configuration System configuration in this program example is shown below: Power module CPU module Master module I/O (input: 64 points) (X0 to X1F/Y0 to Y1F) (X20 to X5F) Pushbutton switch (X22) (X30) (X40) ECLEF-V680D2 Amplifier Antenna ID tag Point Set the network number to 1. (2) Assigning link devices Assign link devices as follows: CPU module Device X X1000~X100F X1010~X101F Device Y Y1000~Y100F Y1010~Y101F Device W D1000 D1001 to D100F Device W D1100 D1101 to D110F Master module Remote input (RX) RX00~RX0F RX10~RX1F Remote output (RY) RY00~RY0F RY10~RY1F Remote register (RWw) RWw0 RWw1 to RWwF Remote register (RWr) RWr0 RWr1 to RWrF ECLEF-V680D2 (Station No. 1) Remote input (RX) RX00~RX0F RX10~RX1F Remote output (RY) RY00~RY0F RY10~RY1F Remote register (RWw) RWw0 RWw1 to RWwF Remote register (RWr) RWr0 RWr1 to RWrF

105 6. HOW TO COMMUNICATE WITH ID TAGS (3) Setting network and refresh parameters Set network and refresh parameters for CC-Link IE Field Network. (a) Create a new project. Create a project on GX Works2. [Project] [New ] Set as follows: Set item Series Type Project type Language Table Creating a New Project Set value QCPU (Q mode) Q10UDH Simple Project Ladder

106 6. HOW TO COMMUNICATE WITH ID TAGS (b) Setting network parameters Display the network parameter setting screen. Project windows [Parameter] [Network parameter] [Ethernet/CC IE/MELSECNET] Set network parameters as shown below: Table Setting Network Parameters Set item Set value Network Type CC IE Field (Master station) Start I/O No Network No. 1 Total Stations 1 Mode Online (Normal mode)

107 6. HOW TO COMMUNICATE WITH ID TAGS (c) Registering the RFID interface unit Display the network configuration window. Project windows [Parameter] [Network parameter] [Ethernet/CC IE/MELSECNET] [Network Configuration Settings] Register the RFID interface unit as shown below: Table Registering the RFID Interface Unit Set item Set value Station Number 1 Type Intelligent Device Station RX/RY setting Number of points 32 Initial 0000 RWw/RWr setting Number of points 16 Initial

108 6. HOW TO COMMUNICATE WITH ID TAGS (d) Setting refresh parameters Display the refresh parameter setting screen. Project window [Parameter] [Network parameter] [Ethernet/CC IE/MELSECNET] [Refresh parameters] Set refresh parameters as shown below: Table Setting Refresh Parameters Set item Set value Dev. Name Start End Link side SB FF SW FF RX F RY F RWr F RWw F PLC side SB SW RX RY RWr RWw